Calculators Created by Shobhit Dimri

Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat
www.linkedin.com/in/shobhit-dimri
710
Formulas Created
120
Formulas Verified
75
Across Categories

List of Calculators by Shobhit Dimri

Following is a combined list of all the calculators that have been created and verified by Shobhit Dimri. Shobhit Dimri has created 710 and verified 120 calculators across 75 different categories till date.
Verified A Parameter (Nominal T-method)
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Verified D Parameter (Nominal T-method)
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14 More ABCD Parameter Calculators
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Verified A Parameter (Nominal pi-method)
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Verified D Parameter (Nominal pi-method)
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14 More ABCD Parameter Calculators
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Verified Admittance Using A Parameter (LTL)
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Verified C Parameter (LTL)
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Verified Impedance Using D Parameter (LTL)
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Verified Length Using B Parameter (LTL)
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Verified Length Using C Parameter (LTL)
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Verified Propagation Constant Using A Parameter (LTL)
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Verified Propagation Constant Using B Parameter (LTL)
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13 More ABCD Value Calculators
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Created Absolute Temp Of Resistor
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Created Antenna Current
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Created Antenna Efficiency
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Created Antenna Gain
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Created Avg Radiation Intensity
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Created Beam Width
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Created Critical Freq Ionosphere
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Created Directivity Of Antenna
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Created Distance b/w Transmitting and Receiving point
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Created Duct Height
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Created Effective Aperture Of antenna
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Created Height Of Layer
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Created Height Of Receiving Antenna
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Created Height Of Transmitting Antenna
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Created Ionic Density
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Created Isotropic Radiation Intensity
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Created Isotropic Radiator
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Created Length Of Binomial Array
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Created Max Duct Wavelength
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Created Max Radiation Intensity
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Created Maximum Usable Frequency
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Created Noise Temperature Of Antenna
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Created Normal Of Reflecting Plane
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Created Ohmic Resistance
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Created Parallel Of Reflecting Plane
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Created Power Density Of antenna
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Created Power Per Unit Bandwidth
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Created Propagation Distance
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Created Radiation Resistance
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Created Refractive Index Of Ionosphere
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Created Strength of Ground Wave
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Created Total Antenna Resistance
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Created Total Input Power
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Created Wavelength Of Plane
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Verified Length Of Line Using Area Of X-section(Two-Wire One Conductor Earthed)
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Verified Line Losses Using Area Of X-section(Two-Wire One Conductor Earthed)
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Verified Maximum Voltage Using Area Of X-section(DC Two-Wire OS)
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Verified Transmitted Power Using Area Of X-section(Two-Wire One Conductor Earthed)
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1 More Area Of X-Section Calculators
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Verified Length Using Area Of X-section(DC 3-wire)
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Verified Maximum Voltage Using Area Of X-section(DC 3-wire)
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Verified Resistivity Using Area Of X-section(DC 3-wire)
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4 More Area Of X-Section Calculators
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Verified Load Current Using Area Of X-Section(1-Phase 2-Wire Mid-point Earthed OS)
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Verified Volume Of Conductor Material Using Area Of X-section(1-Phase 2-Wire Mid-point Earthed OS)
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7 More Area Of X-Section Calculators
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Verified Line Losses Using Area Of X-Section (1-Phase 2-Wire US)
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8 More Area Of X-Section Calculators
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Verified RMS Voltage Using Area Of X-section(3-phase 4-wire OS)
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7 More Area Of X-Section Calculators
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Verified Power Factor Using Area Of X-section(3-phase 3-wire OS)
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7 More Area Of X-Section Calculators
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Created Acceptable MTBF
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Created Activity factor
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Created Adjacent capacitance
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Created Agression Driver
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Created Agression Time Constant
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Created Agressor Voltage
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Created Aperture times for falling inputs
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Created Aperture times for rising
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Created Area of a memory cell
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Created Area of a memory containing N bits
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Created Area Of Source Diffusion(AS)
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Created Array efficiency
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Created Bit Capacitance
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Created Body effect coefficient
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Created Branching effort
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Created Built-in potential
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Created Capacitance gate to base
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Created Capacitance gate to drain
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Created Capacitance gate to source
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Created Capacitance Gnd-V
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Created capacitance junction between body and bottom of source
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Created Capacitance Of Gate Oxide
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Created Capacitance of junction between body and sidewalls of source
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Created capacitance of the external load
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Created Capacitance Offpath
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Created Capacitance Onpath
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Created Capacitor dynamic power
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Created Carry-Increamentor Adder Delay
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Created Carry-Looker Adder (CLA) delay
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Created Carry-Ripple adder critical path delay
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Created Carry-Skip Adder Delay
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Created Cell Capacitance
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Created Change in Frequency of Clock
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Created Change in Phase of Clock
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Created Channel Charge
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Created CMOS Dynamic Power
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Created CMOS Saturation Voltage
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Created CMOS Short-Circuit Power
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Created CMOS Static Power
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Created CMOS Total Power
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Created Contention current in ratioed circuits
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Created Critical Electric Field CMOS
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Created Critical Path Delay
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Created Critical Voltage
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Created Delay Fall
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Created Delay of Chains
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Created Delay of the 1-bit propagate/generate gates
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Created Delay of the AND-OR gate in the gray cell
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Created Delay Previous
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Created Delay rise
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Created Depletion region Width
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Created DIBL coefficient
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Created Drain Voltage
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Created Drive of an arbitrary gate
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Created Duty Cycle Time in CMOS
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Created Edge rate
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Created Effective Capacitance in CMOS
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Created Effective Channel Length
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Created Energy Delay Product
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Created fall resistance
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Created Fall time
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Created fanout of the gate
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Created Feedback Clock PLL
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Created Gate Capacitance
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Created Gate Delay
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Created Gate leakage through gate dielectric
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Created Gate Length
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Created Gate to Channel Voltage
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Created Gates On Critical Path
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Created Ground to Agression capacitance
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Created Group Propagation delay
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Created HIGH Noise Margin
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Created Hold Time at High logic
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Created Hold Time at Low logic
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Created Initial Voltage of Node A
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Created Input capacitance of the gate
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Created Input Clock Phase PLL
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Created Intrinsic Fall
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Created Intrinsic gate capacitance
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Created Intrinsic Rise
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Created Invertor Electric Effort 1
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Created Invertor Electric Effort 2
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Created Invertor Power
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Created Junction Current
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Created K-input AND gate
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Created K-Prime
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Created Leakage Energy in CMOS
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Created Length of Source(D)
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Created Lock Voltage
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Created Logical effort(g)
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Created LOW Noise margin
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Created Maximum allowable power supply ripple
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Created Maximum LOW input voltage
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Created Maximum LOW output voltage
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Created Metastable voltage
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Created Minimum HIGH input voltage
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Created Minimum HIGH output voltage
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Created Mobility in Mosfet
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Created Multiplexer Delay
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Created N-bit carry-skip adder
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Created N-Bit SRAM
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Created n-input AND gate
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Created Normalized delay
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Created OFF Current
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Created Output Clock Phase
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Created Output Clock Phase PLL
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Created Oxide Thickness
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Created Parasitic capacitance
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Created Permittivity of Oxide Layer
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Created PLL Phase Detector Error
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Created Potential difference Source To Body(Vsb)
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Created Potential from drain to source
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Created Potential gate to Collector
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Created Potential Gate to Drain
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Created Power Consumption of the chip
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Created Probability of synchronizer failure
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Created Propagation delay
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Created Rise Resistance
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Created Rise time
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Created Series resistance from the die to the package
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Created Series resistance from the package to the air
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Created Setup Time at high Logic
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Created Setup Time at Low Logic
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Created Sidewall Perimeter Of Source Diffusion
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Created slope fall
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Created Slope Rise
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Created Small Deviation Delay
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Created Small signal offset
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Created Stage effort
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Created Static Current
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Created Static Power Dissipation
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Created Subthreshold leakage through OFF transistors
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Created Subthreshold slope
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Created Supply Impedance
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Created Surface potential
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Created Switching Energy in CMOS
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Created Switching Power
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Created Temperature Difference between Transistors
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Created Thermal Resistance between junction and Ambient
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Created Threshold Voltage
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Created Threshold Voltage of MOSFET
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Created Threshold Voltage When Source is at body potential
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Created Time Constant ratio Of Agression to Victim
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Created Total capacitance seen by a stage
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Created Total Energy in CMOS
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Created Total Source Parasitic Capacitance
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Created Transfer Function of PLL
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Created Tree Adder Delay
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Created VCDL gain
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Created VCO Control Voltage
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Created VCO Offset Voltage
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Created VCO Single Gain Factor
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Created Victim Driver
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Created Victim Time Constant
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Created Victim Voltage
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Created Voltage at Which EDP is minimize
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Created Voltage Swing On Bitline
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Created Voltage-Controlled delay line
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Created Width Of Gate
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Created Width Of Source Diffusion
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Created XOR Delay
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Created XOR Phase Detector average Voltage
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Created XOR Phase Detector Current
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Created XOR Phase Detector Phase
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Created XOR Phase Detector Voltage
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Created x-Voltage Nand Gate
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Created Duty Cycle For Buck Regulator (CCM)
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Created Input Voltage For Buck Regulator (CCM)
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Created Output Voltage For Buck Regulator (CCM)
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Created Duty Cycle For Boost Regulator (CCM)
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Created Input Voltage For Boost Regulator (CCM)
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Created Output Voltage For Boost Regulator (CCM)
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Created Duty Cycle For Buck-Boost Regulator (CCM)
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Created Input Voltage For Buck-Boost Regulator (CCM)
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Created Output Voltage For Buck-Boost Regulator (CCM)
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Created Duty Cycle For Cuk Regulator
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Created Input Voltage For Cuk Regulator
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Created Output Voltage For Cuk Regulator
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Created Amplitude Of Reference signal
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Created Amplitude Of The Signal Received From Target at Range Ro
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Created CFA D.C Power Input
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Created CFA RF drive power
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Created CW oscillator voltage
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Created Distance from antenna 1 to the target
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Created Distance from antenna 2
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Created Doppler Frequency Shift
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Created Echo Signal Voltage
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Created Efficiency Of Cross-Field Amplifier(CFA)
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Created Measured position at the nth scan
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Created Peak quantization lobe
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Created Phase difference between the echo signals
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Created Position Smoothing parameter
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Created Predicted position of the target
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Created Radar antenna height
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Created Range-resolution
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Created RF Power output
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Created Smoothed position
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Created Smoothed Velocity
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Created Target height
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Created Target Velocity
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Created Time Between Observations
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Created Velocity Smoothing Parameter
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Created Commutation Period For Buck Regulator (DCM)
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Created Inductor Value For Buck Regulator (DCM)
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Created Output Current For Buck Regulator (DCM)
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Created Output Voltage For Buck Regulator (DCM)
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Created Commutation Period For Boost Regulator (DCM)
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Created Duty Cycle For Boost Regulator (DCM)
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Created Inductor Value For Boost Regulator (DCM)
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Created Output Current For Boost Regulator (DCM)
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Created Output Voltage For Boost Regulator (DCM)
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Created Commutation Period For Buck-Boost Regulator (DCM)
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Created Inductor Value For Buck-Boost Regulator (DCM)
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Created Output Current For Buck-Boost Regulator (DCM)
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Created Output Voltage For Buck-Boost Regulator (DCM)
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Verified EMF Induced in a Rotating Coil
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Verified Total Flux in Mutual Inductance
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24 More Electromagnetic Induction Calculators
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Verified Impedance(ECM)
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Verified Sending End Voltage(ECM)
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5 More End Condenser Method Calculators
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Created Diameter Of Fiber
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Created Fiber Attenuation Coefficient
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Created Fiber Length
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Created Gaussian Pulse
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Created Graded Index Fiber
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Created Group Delay
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Created Normalized Frequency
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Created Numerical Aperture
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Created Optical Fiber Dispersion
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Created Optical Pulse
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Created Plane Wave Velocity
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Created Power Loss In Fiber
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Created Ray Optics Critical Angle
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Created Refractive Index Of Fiber Core
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Created Refractive Index Of The Cladding
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Created Total Number Of Modes MN
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K (3)
Verified Length Using Constant(DC 3-wire)
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Verified Maximum Power Using Constant(DC 3-wire)
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Verified Resistivity Using Constant(DC 3-wire)
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3 More K Calculators
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K (1)
Verified Volume Of Conductor Material Using Constant(3-phase 4-wire OS)
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Verified Load Current Using Line Losses(Two-Wire Mid-point Earthed)
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Verified Maximum Voltage Using Line Losses(Two-Wire Mid-point Earthed)
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5 More Line Losses Calculators
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Verified Length Using Line Losses(DC 3-wire)
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Verified Maximum Voltage Using Line Losses(DC 3-wire)
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5 More Line Losses Calculators
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Verified Constant Using Line Losses (1-Phase 2-Wire US)
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10 More Line Losses Calculators
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Verified Angle Of Pf Using Line Losses (2-Phase 3-Wire US)
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8 More Line Losses Calculators
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Verified Angle Of PF Using Line Losses (2-Phase 3-Wire OS)
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8 More Line Losses Calculators
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Verified Power Transmitted Using Load Current(Two-Wire Mid-point Earthed)
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1 More Load Current Calculators
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Verified Maximum Power Using Load Current(DC 3-wire)
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1 More Load Current Calculators
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Verified RMS Voltage Using Load Current (1-Phase 2-Wire US)
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9 More Load Current Calculators
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Verified Angle Of PF Using Load Current(3-phase 3-wire OS)
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Verified Power Factor Using Load Current(3-phase 3-wire OS)
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Verified RMS Voltage Using Load Current(3-phase 3-wire OS)
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Verified Transmitted Power Using Load Current(3-phase 3-wire OS)
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1 More Load Current Calculators
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Verified Load Current Of Neutral Wire (2-phase 3-wire OS)
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Verified Maximum Voltage Using Load Current (2-phase 3-wire OS)
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Verified Power Transmitted Using Load Current (2-phase 3-wire OS)
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2 More Load Current Calculators
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Verified RMS Voltage Using Load Current (3-phase 4-wire OS)
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4 More Load Current Calculators
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Verified RMS Voltage Using Load Current (1-phase 3-wire US)
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Verified Transmitted Power Using Load Current (1-phase 3-wire US)
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3 More Load Current Calculators
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Verified Losses(ECM)
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Verified Resistance Using Losses(ECM)
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1 More Losses Calculators
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Created Absolute Static Error of quantity A
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Created Angular Deflection Of Spring
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Created Area of Capillary Tube
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Created Area of the Bulb
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Created Average Deviation
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Created Co-efficient of volumetric Expansion
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Created Current at Full-scale reading
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Created Erroneous Quantity
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Created Flat Spiral Spring Controlling Torque
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Created Full-Scale Deviation
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Created Full-scale Voltage Reading
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Created Instrumentation Span
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Created Inverse Sensitivity or Scale Factor
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Created Largest Reading(Xmax)
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Created Length Of Spring
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Created Length of the Capillary Tube
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Created Location of Point
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Created Magnitude of Input
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Created Magnitude of Output Response
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Created Magnitude Of Physical Quantity
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Created Maximum Displacement Deviation
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Created Maximum Resistance deviation
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Created Measured Value Of the quantity
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Created Nominal Value
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Created Numerical Ratio
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Created Percent Linearity
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Created Percentage Error
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Created Power Consumed at Full-Scale Reading
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Created Relative Limiting Error
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Created Relative Static Error
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Created Resistance Of Meter
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Created Sensitivity
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Created Sharpness Of Curve
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Created Smallest reading(Xmin)
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Created Standard Deviation for Normal Curve
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Created True Quantity
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Created True Value of Quantity(At)
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Created Width of Spring
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Created Youngs Modulus Of Flat Spring
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32 More MEASURING INSTRUMENTATION Calculators
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Created Amplifier Gain of Tunnel Diode
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Created Average diode temperature in °K
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Created Average time to traverse the emitter to collector
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Created Bandwidth of Negative Resistance Parametric Amplifier
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Created Bandwidth of Parametric Up-Converter
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Created Base Resistance
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Created Base Transit Time
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Created Characteristic impedance of circulator
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Created Collector Depletion Layer Charging Time
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Created Collector Depletion layer Transit Time
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Created Collector Frequency Capacitance
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Created Cut-off frequency MESFET
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Created Cut-Off Frequency Of microwave
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Created Diode temperature
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Created Drain Resistance MESFET
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Created Dynamic Q-factor
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Created Emitter Base Junction Charging Time
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Created Emitter To Collector Delay Time
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Created Emitter To Collector Distance
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Created Emitter-Base Junction Charging Time
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Created Figure Of Merit For Nonlinear Capacitor
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Created Figure Of Merit of Non-linear Capacitor
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Created First Fourier component of elastance
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Created Gain-Degradation Factor
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Created Gate length
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Created Gate metallization resistance MESFET
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Created Gate to source capacitance MESFET
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Created Idler frequency
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Created Input resistance MESFET
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Created Junction capacitance at voltage V
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Created Magnitude Of Negative Resistance
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Created Maximum Allowable Applied Voltage
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Created Maximum Current Of Device
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Created Maximum frequency of oscillations
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Created Maximum frequency of oscillations MESFET
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Created Negative Conductance Of Diode
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Created Negative Resistance Amplifier's Power Gain
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Created Noise Figure Of double side band
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Created Noise Figure Of Parametric Up-Converter
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Created Noise Figure Of single side band
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Created Output Frequency in Up-Convertor
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Created Output Resistance Of Idler Generator
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Created Output Resistance Of Signal Generator
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Created Power gain for a parametric Up-Converter
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Created Power gain of a demodulator
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Created Power gain of a modulator
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Created Pumping frequency
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Created Q-factor at voltage ‘V’
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Created Q-Factor of Up-Converter
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Created Ratio negative resistance to series resistance
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Created Reactive Impedence
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Created Reflection Co-Efficient from circulator to tunnel diode
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Created Room Temperature
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Created Saturation Drift Velocity
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Created Series Resistance Of p-n Junction Diode
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Created Series resistance of the diode
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Created Signal frequency
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Created Source Resistance MESFET
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Created Static Figure Of Merit Cut-off Frequency
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Created Total Series Resistance At Fi
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Created Total Series Resistance At Fs
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Created Transconductance MESFET
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Created Tunnel Diode Output Power
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Created Accelerating Anode Voltage
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Created Anode Current
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Created Anode Voltage
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Created Attenuation Due To Conductor Losses
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Created Attenuation Due To Dielectric
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Created Average distance between the cavities
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Created Average Microwave Voltage In Buncher Gap
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Created Average Transit Angle
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Created Average Transit Time Through The Buncher Gap
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Created Beam Coupling Coefficient Of Input Cavity Gap
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Created Beam Loading Conductance
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Created Buncher Cavity Gap
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Created Bunching Parameter Of Klystron
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Created Capacitance at the vane tips
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Created Carrier Frequency In Spectral Line
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Created Cathode Radius
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Created Cavity Gap Voltage
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Created Cavity Quality Factor
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Created Characteristic Admittance
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Created circuit efficiency in the magnetron
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Created Conductance of the resonator
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Created Conversion Loss Of Mixture
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Created Critical (or Hull Cut-off) Magnetic field
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Created Cu Losses Of Cavity
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Created Current Arriving At Catcher Cavity Gap
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Created Cyclotron Angular frequency
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Created D.C Grid Voltage
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Created D.C Phase Constant Of Electron Beam
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Created D.C Transit Angle
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Created D.C Transit-Time
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Created Distortion Line
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Created Drift Space Length
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Created Electric Field Max
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Created Electric Field Minimum
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Created Electronic efficiency
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Created External Q-factor
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Created First Modulating Frequency in Modulation Linearity
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Created Fundamental Of Catcher Gap Voltage
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Created Gain of TWT
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Created Group Velocity
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Created Hull Cut-off voltage
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Created Incident Voltage
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Created Induced Current In Catcher Cavity
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Created Induced Current In The Walls Of Catcher Cavity
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Created Insertion Loss
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Created Integer value
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Created Klystron Efficiency
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Created Length Of Slow Wave Structure
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Created Load Conductance
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Created Magnetron Phase
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Created Magnitude Of Microwave Signal At Input Cavity
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Created Mismatched Loss
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Created Modulation Linearity
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Created Mutual Conductance Of Klystron Amplifier
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Created Noise Figure In IF Amplifier
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Created Noise Figure Of Mixture
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Created Noise Ratio
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Created Number Of Resonant Cavities
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Created Numerical Number
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Created Optimum Transit Time
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Created Overall Noise Figure
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Created Phase Constant for N-cavities
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Created Phase Velocity
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Created Plasma frequency
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Created Power Lost In Anode Circuit
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Created power obtained from dc power supply
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Created Power Standing Wave Ratio
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Created Q-factor Of Beam Loading
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Created Q-Factor Of Catcher Wall
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Created Q-Factor Of External Load
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Created Q-Factor Of Loaded Catcher Cavity
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Created Q-factor of loaded resonator circuit
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Created Quality Factor Of Parallel Resonant Circuit
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Created Receiver Sensitivity
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Created Rectangular Microwave Pulse Peak Power
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Created Reduced Plasma Frequency
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Created Reflected Voltage
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Created Reflection Coefficient
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Created Repeller Voltage
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Created Repetition Frequency Of Pulse
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Created Resonant Frequency Of Cavity
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Created Retarding Field
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Created Return Loss
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Created RF power induced into the anode circuit
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Created RF Pulse Width(Teff)
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Created Round-trip D.C Transit Time In Repeller Space
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Created Second Modulating Frequency in Modulation Linearity
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Created Shunt Resistance in Parallel Resonant Circuit
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Created Skin Depth
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Created Space Charge Reduction Factor
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Created Spectral Line Frequency
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Created Total Conductance of Reflex Klystron (G)
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Created Travelling Wave Tube Gain Parameter
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Created Unloaded Q-factor
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Created Velocity Of Electron In Grid
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Created Voltage Standing Wave Ratio
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Verified Load Current Using Transmission Efficiency (Nominal pi-method)
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Verified Resistance Using Losses (Nominal pi-method)
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18 More Nominal pi-method Calculators
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Verified Receiving End Current Using Capacitive Voltage (Nominal T-method)
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Verified Receiving End Voltage Using Capacitive Voltage (Nominal T-method)
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17 More Nominal T-method Calculators
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Created Antenna Aperture Efficiency
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Created Cumulative probability of detection
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Created Doppler Angular Frequency
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Created Doppler Frequency
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Created Effective Area Of The Receiving Antenna
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Created Max Power Density Radiated By Antenna
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Created Maximum Gain Of The Antenna
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Created Maximum Range Of The Radar
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Created Maximum Unambiguous Range
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Created Measured Runtime
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Created Minimum Detectable Signal
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Created N scans
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Created Physical Antenna Area
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Created Power Density Radiated By Lossless Antenna
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Created Pulse Repetition Frequency
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Created Pulse Repletion Time
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Created Radial Velocity
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Created Range Of The Target
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Created Surveillance Radar Probability
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Created Transmitted Frequency
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Created Transmitted Gain
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Verified Characteristic Impedance Using Reflected Voltage
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Verified Load Impedance Using Reflected Current
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Verified Reflected Voltage Using Load Impedance
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10 More Reflected Waves Calculators
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Verified Resistance Of Neutral Wire (2-phase 3-wire OS)
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Verified Resistivity Using Resistance (2-phase 3-wire OS)
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2 More Resistance Calculators
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Verified Length Of Wire Using Resistance (3-phase 4-wire OS)
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2 More Resistance Calculators
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Created Acute Value
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Created Angle Of Elevation
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Created Angle Of Tilt
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Created Anomalistic Period
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Created Apogee Heights
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Created Azimuth Angle
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Created Earth Station Altitude
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Created Earth-Station Latitude
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Created Eccentric Anomaly
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Created Effective Path Length
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Created Equatorial Radius Of Earth
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Created Geostationary Height
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Created Geostationary Radius
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Created Julian century
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Created Julian Day
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Created Kepler's First Law
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Created Kepler's Third Law
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Created Length Of Radius Vectors At Apogee
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Created Length Of Radius Vectors At Perigee
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Created Local Sidereal Time
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Created Mean Anomaly
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Created Mean Motion Of Satellite
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Created Nominal Mean Motion
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Created Path Length
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Created Perigee Heights
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Created Period Of Satellite
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Created Position Vector
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Created Rain Height
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Created Range Vector
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Created Reduction Factor
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Created Reference Time
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Created Regression Of Nodes
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Created Slant Length
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Created Specific Attenuation
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Created Time Of Perigee Passage
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Created Total Attenuation
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Created True Anomaly
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Created Universal Time
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Created Universal Time Degree
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Verified Losses Using Sending End Power(ECM)
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Verified Sending End Power(ECM)
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4 More Sending End Power Calculators
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Verified Angular Speed Of Series DC Generator Using Input Power
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Verified Converted Power Of Series DC Generator Using Output Power
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Verified Input Power Of Series DC Generator
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Verified Load Current Of Series DC Generator Using Load Power
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30 More Series Generator Calculators
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Created Input Voltage (LSR)
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Created Load Current (LSR)
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Created Output Voltage (LSR)
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Created Shunt Current (LSR)
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Created Shunt Resistance (LSR)
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Created AC Conductance(Gs)
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Created Acceptor Concentration(Na)
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Created Amplitude Of Wave Function
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Created Angular momentum of electron
Go
Created Carrier Lifetime
Go
Created Concentration of holes in valence band(po)
Go
Created Conduction Band Concentration(no)
Go
Created Conduction Band Edge
Go
Created Coulomb Constant(K)
Go
Created Cross-Sectional Area Of Junction
Go
Created Current Due To Optical Generator Carrier
Go
Created Difference in Electron Concentrtion
Go
Created Diffusion Length Of Transition Region(Ln)
Go
Created Distribution Coefficient
Go
Created Donor Concentration(Nd)
Go
Created Effective Density of state(Nc)
Go
Created Effective Density State in Valence Band(Nv)
Go
Created Electron Component
Go
Created Electron Concentration N1
Go
Created Electron Concentration N2
Go
Created Electron Current Density
Go
Created Electron Flux Density
Go
Created Electron In The region
Go
Created Electron Multiplication(Mn)
Go
Created Electron Out of The Region
Go
Created Emitter Injection Efficiency
Go
Created Energy Gap
Go
Created Excess Carrier Concentration
Go
Created Fermi Function
Go
Created Grade Constant
Go
Created Hole Component
Go
Created Hole Current Density
Go
Created Impurity Concentration In Solid
Go
Created Intrinsic Concentration
Go
Created Intrinsic Electron Concentration
Go
Created Intrinsic hole Concentration
Go
Created Ionic Collision(p)
Go
Created Junction Capicatance
Go
Created Junction Voltage
Go
Created Length from electron (L)
Go
Created length of p-side Junction
Go
Created Liquid Concentration
Go
Created Majority Carrier Decay
Go
Created Mean Free Path
Go
Created Mean Time Spend By Carrier
Go
Created Mean Time Spend By hole
Go
Created Net Distribution near Junction(x)
Go
Created Net rate Of Change In Conduction Band(ar)
Go
Created n-type Width
Go
Created Optical Generation Rate(gop)
Go
Created P-N Junction Length
Go
Created Probability Density Function
Go
Created p-type Width
Go
Created Radius of nth Orbit of electron
Go
Created Recombination Lifetime
Go
Created Series Resistance in n (Rn)
Go
Created Series Resistance in p (Rp)
Go
Created Successive value of Integer
Go
Created Thermal Generation Of EHP
Go
Created Thermal Generation Rate
Go
Created Total Carrier Current Density
Go
Created Transition Width(W)
Go
Created Uncompensated Charge(Q)
Go
Created Valence Band Edge
Go
Created Φ-dependent Wave Function
Go
Created Average Holding Time
Go
Created Average Number Of Call
Go
Created Average Poisson Call Arrival Rate
Go
Created Average Switching Time Per Stage
Go
Created Call Setup Time
Go
Created Cost Capacity Index
Go
Created Cost Of Common Hardware
Go
Created Cost Of Switching System
Go
Created Cost Per Subscriber
Go
Created Downtime For High Availability
Go
Created Equipment Utilization Factor
Go
Created Grade Of Service
Go
Created High Availability
Go
Created Instantaneous Resistance Of Microphone
Go
Created Maximum Variation Resistance By Carbon Granules
Go
Created Number Of Lost Call
Go
Created Number of SE in equivalent multistage
Go
Created Number Of SE In Single Switch
Go
Created Number Of SE When SC IS Fully Utilised
Go
Created Number Of Switching Elements
Go
Created Number Of Switching Stage
Go
Created Poisson Arrival
Go
Created Power Ratio
Go
Created Quantization Error
Go
Created Quiescent Resistance Of Microphone
Go
Created Sinusoidal Input
Go
Created Switching Capacity
Go
Created Switching Element Advantage Factor
Go
Created Theoretical Maximum Load
Go
Created Time Required For Functions Other Than Switching
Go
Created Total No Of SE In System
Go
Created Total Number Of Offered Calls
Go
Created Traffic Flow Of Traffic Intensity
Go
Created Traffic Handling Capability
Go
Created Trunk Occupancy
Go
Created Unavailability Of The System
Go
Created Uptime For High Availability
Go
Created Aspect Ratio
Go
Created Height of Rectangle Picture Frame
Go
Created Horizontal Frequency
Go
Created Horizontal Resolution
Go
Created Kell factor or resolution factor
Go
Created No. of active lines
Go
Created Number of frames per sec
Go
Created Number of Horizontal lines lost during Vertical retrace
Go
Created Number of lines in a Frame
Go
Created One horizontal line
Go
Created One Horizontal line scan
Go
Created One horizontal line tracing
Go
Created One Horizontal Time
Go
Created Vertical Resolution (VR)
Go
Created Vertical Retrace Time
Go
Created Video Bandwidth
Go
Created Video Bandwidth Signal
Go
Created Width of Rectangle Picture
Go
Verified Constant(1-Phase 3-Wire OS)
Go
Verified Load Current(1-Phase 3-Wire OS)
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Verified Resistance(1-Phase 3-Wire OS)
Go
5 More Three Wire Calculators
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Verified Line Losses(DC 3-wire)
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Verified Maximum Voltage(DC 3-wire)
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6 More Three-Wire Calculators
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Verified Losses Using Transmission Efficiency (Nominal T-method)
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Verified Resistance Using Transmission Efficiency (Nominal T-method)
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9 More Transmission Efficiency Calculators
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Verified Losses Using Transmission Efficiency(ECM)
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Verified Resistance Using Transmission Efficiency(ECM)
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Verified Sending End Angle Using Transmission Efficiency(ECM)
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Verified Sending End Power Using Transmission Efficiency(ECM)
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7 More Transmission Efficiency Calculators
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Verified Characteristic Impedance Using Transmitted Current
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Verified Incident Current Using Transmitted Current
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Verified Load Impedance Using Transmitted Voltage
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10 More Transmitted Or Refracted Waves Calculators
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Verified Potential Difference Between b-phase (2OC)
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Verified Potential Difference Between c-phase (2OC)
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Verified Zero Sequence Potential Difference Using Potential Difference Between b-Phase(2OC)
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25 More Two conductors open Calculators
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Verified RMS Voltage(1-Phase 2-Wire US)
Go
8 More Two Wire Calculators
Go
Verified Area Of X-Section(1-Phase 2-Wire OS)
Go
Verified Load Current(1-Phase 2-Wire OS)
Go
6 More Two-Wire Calculators
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Verified Maximum Voltage(1-Phase 2-Wire Mid-Point Earthed)
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7 More Two-Wire Mid-point Earthed Calculators
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Verified Terminal Voltage Of Series DC Generator Using Load Power
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6 More Voltage Calculators
Go
Verified Sending End Voltage Using Voltage Regulation(ECM)
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Verified Voltage Regulation(ECM)
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1 More Voltage Regulation Calculators
Go
Verified Sending End Voltage Using Voltage Regulation (Nominal T-method)
Go
2 More Voltage Regulation Calculators
Go
Verified Constant Using Volume Of Conductor Material (DC 2-Wire OS)
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Verified Length Using Volume Of Conductor Material (DC 2-Wire OS)
Go
Verified Line Losses Using Volume Of Conductor Material (DC 2-Wire OS)
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Verified Transmitted Power Using Volume(Two-Wire One Conductor Earthed)
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3 More Volume Of Conductor Material Calculators
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Verified Length Using Volume Of Conductor Material (DC 3-wire)
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Verified Maximum Voltage Using Volume Of Conductor Material (DC 3-wire)
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5 More Volume Of Conductor Material Calculators
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Verified Angle Of PF Using Volume Of Conductor Material (3-phase 4-wire US)
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8 More Volume Of Conductor Material Calculators
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Verified Angle Of PF Using Volume Of Conductor Material (3-phase 3-wire US)
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8 More Volume Of Conductor Material Calculators
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Verified Angle Of PF Using Volume Of Conductor Material (2-phase 3-wire OS)
Go
Verified Line Losses Using Volume Of Conductor Material (2-phase 3-wire OS)
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7 More Volume Of Conductor Material Calculators
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Verified Angle Of PF Using Volume Of Conductor Material (2-phase 3-wire US)
Go
Verified Area Of X-section Using Volume Of Conductor Material (2-phase 3-wire US)
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7 More Volume Of Conductor Material Calculators
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Verified Angle Of PF Using Volume Of Conductor Material(1-phase 3-wire US)
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Verified Area Of X-section Using Volume Of Conductor Material(1-phase 3-wire US)
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Verified Constant Using Volume Of Conductor Material(1-phase 3-wire US)
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Verified Length Using Volume Of Conductor Material(1-phase 3-wire US)
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Verified Line Losses Using Volume Of Conductor Material(1-phase 3-wire US)
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Verified Maximum Voltage Using Volume Of Conductor Material(1-phase 3-wire US)
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Verified Power Factor Using Volume Of Conductor Material(1-phase 3-wire US)
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Verified Resistivity Using Volume Of Conductor Material(1-phase 3-wire US)
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Verified RMS Voltage Using Volume Of Conductor Material(1-phase 3-wire US)
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Verified Transmitted Power Using Volume Of Conductor Material(1-phase 3-wire US)
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Verified Area Of X-section Using Volume Of Conductor Material(2-Wire Mid-point Earthed OS)
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Verified Constant Using Volume Of Conductor Material(2-Wire Mid-point Earthed OS)
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Verified Length Using Volume Of Conductor Material(2-Wire Mid-point Earthed OS)
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Verified Line Losses Using Volume Of Conductor Material(2-Wire Mid-point Earthed OS)
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Verified Maximum Voltage Using Volume Of Conductor Material(2-Wire Mid-point Earthed OS)
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Verified Resistivity Using Volume Of Conductor Material(2-Wire Mid-point Earthed OS)
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Verified Transmitted Power Using Volume Of Conductor Material(2-Wire Mid-point Earthed OS)
Go
Verified Constant Using Volume Of Conductor Material(DC Three-Wire US)
Go
Verified Length Using Volume Of Conductor Material(DC Three-Wire US)
Go
Verified Line Losses Using Volume Of Conductor Material(DC Three-Wire US)
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Verified Maximum Voltage Using Volume Of Conductor Material(DC Three-Wire US)
Go
Verified Resistivity Using Volume Of Conductor Material(DC Three-Wire US)
Go
Verified Transmitted Power Using Volume Of Conductor Material(DC Three-Wire US)
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1 More Volume Of Conductor Material Calculators
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Created Actual S/N ratio at Output
Go
Created Average calling time
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Created Average duration of fade
Go
Created Block Of N serial Source
Go
Created Capability of error correction bits
Go
Created Coding Noise
Go
Created Coherence bandwidth for two fading amplitudes of two received signals
Go
Created Coherence bandwidth for two random phases of two received signals
Go
Created Coherence interference
Go
Created Cumulative distribution function
Go
Created Delay Spread
Go
Created Expected number of Transmission
Go
Created Expected One Transmission(E1)
Go
Created Forward Frame
Go
Created Frequency reuse distance
Go
Created Frequency reuse pattern
Go
Created Hamming Distance
Go
Created Header bits
Go
Created Information bits
Go
Created Input Waveform
Go
Created Level Crossing Rate
Go
Created Long Term Fading
Go
Created M-ary PAM
Go
Created M-ary QAM
Go
Created Maximum calls per hour per cell
Go
Created Maximum Possible S/N Ratio
Go
Created Mobile Radio distance measured from the transmitter to the receiver
Go
Created Mobile radio Signal
Go
Created Mobile reciever Carrier power
Go
Created Multipath Fading
Go
Created New Cell Area
Go
Created New Cell Radius
Go
Created New Traffic Load
Go
Created Noise Figure
Go
Created Normalized LCR(nr)
Go
Created Number of bits per word
Go
Created Offered Load A
Go
Created Old Cell Area
Go
Created Old Cell Radius
Go
Created Propagation Constant
Go
Created Reverse Frame
Go
Created Selective Retransmission
Go
Created Serial to parallel modulated symbol duration
Go
Created Short Term Fading
Go
Created Stop-and-wait ARQ technique
Go
Created Success Probability
Go
Created Symbol duration
Go
Created Symbols Time
Go
Created Time Slots
Go
Created Traffic Load
Go
Created Undetected error probability per single-word message
Go
Created Undetected Probability per Word
Go
Created Unsuccess Probability
Go
Created Word error rate
Go
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