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Calculators Created by Nisarg
Nisarg
Indian Institute of Technology,Roorlee
(IITR)
,
Roorkee
122
Formulas Created
2
Formulas Verified
25
Across Categories
List of Calculators by Nisarg
Following is a combined list of all the calculators that have been created and verified by Nisarg. Nisarg has created 122 and verified 2 calculators across 25 different categories till date.
Current
(5)
Created
A-Phase Current using A-Phase EMF(LGF)
Go
Created
A-Phase Current using Fault Impedance(LGF)
Go
Created
A-Phase Current using Fault Voltage and Fault Impedance(LGF)
Go
Created
A-Phase Current using Sequence Current(LGF)
Go
Created
A-Phase Current using Sequence Voltages and Fault Impedance(LGF)
Go
14 More Current Calculators
Go
Current
(4)
Created
B-Phase Current using A-Phase EMF(LLF)
Go
Created
Fault Current(LLF)
Go
Created
Positive Sequence Current using A-Phase EMF(LLF)
Go
Created
Positive Sequence Current using Fault Impedance(LLF)
Go
6 More Current Calculators
Go
Current
(6)
Created
B-Phase Current using B-Phase Voltage(LLGF)
Go
Created
C-Phase Current using C-Phase Voltage(LLGF)
Go
Created
Negative Sequence Current using Positive Sequence Current and Sequence Impedances(LLGF)
Go
Created
Positive Sequence Current using A-Phase EMF and Sequence Impedances(LLGF)
Go
Created
Zero Sequence Current using Positive Sequence Current and Sequence Impedances(LLGF)
Go
Created
Zero Sequence Current using Sequence Voltages and Fault Impedance(LLGF)
Go
10 More Current Calculators
Go
Dielectric Heating
(5)
Created
Dielectric Loss
Go
Created
Loss Tangent
Go
Created
Net Resistance
Go
Created
Power Loss Density
Go
Created
Thickness of Dielectric
Go
1 More Dielectric Heating Calculators
Go
Diesel Engine Power Plant
(28)
Created
Area of Piston given Piston Bore
Go
Created
Brake Mean Effective Pressure
Go
Created
Brake Mean Effective Pressure given Torque
Go
Created
Brake Power using Break Mean Effective Pressure
Go
Created
Brake Specific Fuel Consumption given Brake Power and Fuel Consumption Rate
Go
Created
Brake Thermal Efficiency of Diesel Engine Power Plant
Go
Created
Break Power given Bore and Stroke
Go
Created
Break Power given Mechanical Efficiency and Indicated Power
Go
Created
Break Power of 2 Stroke Diesel Engine
Go
Created
Break Power of 4 Stroke Diesel Engine
Go
Created
Friction Power of Diesel Engine
Go
Created
Indicated Power of 2 Stroke Engine
Go
Created
Indicated Power of 4 Stroke Engine
Go
Created
Indicated Power using Brake Power and Friction Power
Go
Created
Mechanical Efficiency of Diesel Engine
Go
Verified
Mechanical Efficiency using Break Power and Friction Power
Go
Verified
Mechanical Efficiency using Indicated Power and Friction Power
Go
Created
Overall Efficiency of Diesel Engine Power Plant
Go
Created
Overall Efficiency or Brake Thermal Efficiency using Brake Mean Effective Pressure
Go
Created
Overall Efficiency or Brake Thermal Efficiency using Friction Power and Indicated Power
Go
Created
Overall Efficiency or Brake Thermal Efficiency using Mechanical Efficiency
Go
Created
Thermal Efficiency of Diesel Engine Power Plant
Go
Created
Thermal Efficiency using Friction Power
Go
Created
Thermal Efficiency using Indicated Mean Effective Pressure and Break Mean Effective Pressure
Go
Created
Thermal Efficiency using Indicated Power and Brake Power
Go
Created
Thermal Efficiency using Indicated Power and Fuel Consumption Rate
Go
Created
Volumetric Efficiency of Diesel Engine Power Plant
Go
Created
Work Done per Cycle
Go
Fundamental Parameters
(5)
Created
Closed Loop Positive Feedback Gain
Go
Created
Damping Ratio given Critical Damping
Go
Created
Damping Ratio given Percentage Overshoot
Go
Created
Percentage Overshoot
Go
Created
Q-Factor
Go
14 More Fundamental Parameters Calculators
Go
Furnace Heating
(3)
Created
Equivalent Inductance of Furnace
Go
Created
Operating Frequency
Go
Created
Thickness of Cylinder
Go
5 More Furnace Heating Calculators
Go
Hydroelectric Power Plant
(21)
Created
Angular Velocity of Wheel
Go
Created
Diameter of Bucket
Go
Created
Dimensionless Specific Speed
Go
Created
Efficiency of Turbine given Energy
Go
Created
Energy Produced by Hydroelectric Power Plant
Go
Created
Energy Produced by Hydroelectric Power Plant given Power
Go
Created
Flow Rate of Water given Power
Go
Created
Head or Height of Fall of Water given Power
Go
Created
Height of Fall of Pelton Wheel Turbine Power Plant
Go
Created
Jet Ratio of Hydroelectric Power Plant
Go
Created
Number of Jets
Go
Created
Power given Unit Power
Go
Created
Specific Speed of Multi Jet Machine
Go
Created
Specific Speed of Single Jet Machine
Go
Created
Specific Speed of Turbine of Hydroelectric Power Plant
Go
Created
Speed of Bucket given Angular Velocity and Radius
Go
Created
Speed of Bucket given Diameter and RPM
Go
Created
Speed of Turbine given Unit Speed
Go
Created
Unit Power of Hydroelectric Power Plant
Go
Created
Unit Speed of Turbine
Go
Created
Velocity of Jet from Nozzle
Go
2 More Hydroelectric Power Plant Calculators
Go
Impedance
(3)
Created
Fault Impedance given A-Phase EMF and Sequence Impedances(LGF)
Go
Created
Fault Impedance given Sequence Voltages(LGF)
Go
Created
Fault Impedance using Fault Voltage and A-Phase Current(LGF)
Go
7 More Impedance Calculators
Go
Impedance
(3)
Created
Fault Impedance using A-Phase EMF(LLF)
Go
Created
Positive Sequence Impedance using A-Phase EMF and Positive Sequence Current(LLF)
Go
Created
Positive Sequence Impedance using Positive Sequence Voltage and A-Phase EMF(LLF)
Go
3 More Impedance Calculators
Go
Impedance
(4)
Created
Fault Impedance using Sequence Voltages and Zero Sequence Current(LLGF)
Go
Created
Negative Sequence Impedance(LLGF)
Go
Created
Positive Sequence Impedance using A-Phase EMF(LLGF)
Go
Created
Zero Sequence Impedance(LLGF)
Go
2 More Impedance Calculators
Go
Negative Sequence
(1)
Created
Negative Sequence Potential Difference using A-Phase Current
Go
5 More Negative Sequence Calculators
Go
Negative Sequence
(2)
Created
Negative Sequence Current using A-Phase Current(Two Conductor Open)
Go
Created
Negative Sequence Voltage using A-Phase Current(Two Conductor Open)
Go
6 More Negative Sequence Calculators
Go
One Conductor Open
(2)
Created
A-Phase EMF using Positive Sequence Voltage
Go
Created
Potential Difference between A-Phase and Neutral
Go
7 More One Conductor Open Calculators
Go
Performance Characteristics
(1)
Created
Skin Depth in Conductor
Go
12 More Performance Characteristics Calculators
Go
Positive Sequence
(1)
Created
Positive Sequence Potential Difference using A-Phase Current
Go
7 More Positive Sequence Calculators
Go
Positive Sequence
(2)
Created
Positive Sequence Current using A-Phase Current(Two Conductor Open)
Go
Created
Positive Sequence Voltage using A-Phase Current(Two Conductor Open)
Go
6 More Positive Sequence Calculators
Go
Second Order System
(1)
Created
Rise Time given Damping Ratio
Go
16 More Second Order System Calculators
Go
Thermal Power Plant
(9)
Created
Current Density from Cathode to Anode
Go
Created
Maximum Electron Current per Unit Area
Go
Created
Minimum Energy Required by Electron to Leave Cathode
Go
Created
Net Kinetic Energy of Electron
Go
Created
Net Rate of Energy Supply to Cathode
Go
Created
Output Voltage given Anode and Cathode Voltages
Go
Created
Output Voltage given Anode and Cathode Work Functions
Go
Created
Output Voltage given Fermi Energy Levels
Go
Created
Power Output from Generator
Go
4 More Thermal Power Plant Calculators
Go
Two Conductor Open
(1)
Created
A-Phase Voltage using Sequence Voltages
Go
5 More Two Conductor Open Calculators
Go
Voltage & EMF
(4)
Created
A-Phase Voltage using Sequence Voltages(LGF)
Go
Created
Negative Sequence Voltage using A-Phase EMF and Sequence Impedances(LGF)
Go
Created
Positive Sequence Voltage using A-Phase EMF and Sequence Impedances(LGF)
Go
Created
Zero Sequence Voltage using Phase Voltages(LGF)
Go
13 More Voltage & EMF Calculators
Go
Voltage & EMF
(7)
Created
A-Phase EMF using Fault Current(LLF)
Go
Created
A-Phase EMF using Positive Sequence Current and Sequence Impedances(LLF)
Go
Created
A-Phase EMF using Positive Sequence Current and Voltage(LLF)
Go
Created
A-Phase EMF using Positive Sequence Voltage(LLF)
Go
Created
Negative Sequence Voltage using A-Phase EMF and Sequence Impedances(LLF)
Go
Created
Positive Sequence Voltage using A-Phase EMF and Positive Sequence Current(LLF)
Go
Created
Positive Sequence Voltage using A-Phase EMF and Sequence Impedances(LLF)
Go
6 More Voltage & EMF Calculators
Go
Voltage & EMF
(3)
Created
A-Phase Voltage using Sequence Voltages(LLGF)
Go
Created
B-Phase Voltage using A-Phase Voltage(LLGF)
Go
Created
Positive Sequence Voltage using A-Phase EMF(LLGF)
Go
12 More Voltage & EMF Calculators
Go
Zero Sequence
(1)
Created
Zero Sequence Potential Difference using A-Phase Current
Go
6 More Zero Sequence Calculators
Go
Zero Sequence
(2)
Created
Zero Sequence Current using A-Phase Current(Two Conductor Open)
Go
Created
Zero Sequence Voltage using A-Phase Current(Two Conductor Open)
Go
7 More Zero Sequence Calculators
Go
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