Current for Loaded Admittance Calculator

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Continuous Time Signals

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✖Current for Internal Admittance refers when the currents applies on the internal admittance of generator.ⓘ Current for Internal Admittance [i_g]			+10% -10%
✖Loaded Admittance is an expression of the ease with which alternating current (AC) flows through a complex circuit or system.ⓘ Loaded Admittance [Y_u]			+10% -10%
✖Internal Admittance is an expression of the ease with which alternating current (AC) flows through a complex circuit or system.ⓘ Internal Admittance [Y_g]			+10% -10%

✖Current for Loaded Admittance is the current the loaded admittance is added with the generator.ⓘ Current for Loaded Admittance [i_u]

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Formula

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Current for Loaded Admittance

Formula

`"i"_{"u"} = "i"_{"g"}*"Y"_{"u"}/("Y"_{"g"}+"Y"_{"u"})`

Example

`"1.486567A"="4.15A"*"1.2Ω"/("2.15Ω"+"1.2Ω")`

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Current for Loaded Admittance Solution

STEP 0: Pre-Calculation Summary

Formula Used

Current for Loaded Admittance = Current for Internal Admittance*Loaded Admittance/(Internal Admittance+Loaded Admittance)
i_u = i_g*Y_u/(Y_g+Y_u)
This formula uses 4 Variables

Variables Used

Current for Loaded Admittance - (Measured in Ampere) - Current for Loaded Admittance is the current the loaded admittance is added with the generator.
Current for Internal Admittance - (Measured in Ampere) - Current for Internal Admittance refers when the currents applies on the internal admittance of generator.
Loaded Admittance - (Measured in Ohm) - Loaded Admittance is an expression of the ease with which alternating current (AC) flows through a complex circuit or system.
Internal Admittance - (Measured in Ohm) - Internal Admittance is an expression of the ease with which alternating current (AC) flows through a complex circuit or system.

STEP 1: Convert Input(s) to Base Unit

Current for Internal Admittance: 4.15 Ampere --> 4.15 Ampere No Conversion Required
Loaded Admittance: 1.2 Ohm --> 1.2 Ohm No Conversion Required
Internal Admittance: 2.15 Ohm --> 2.15 Ohm No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

i_u = i_g*Y_u/(Y_g+Y_u) --> 4.15*1.2/(2.15+1.2)

Evaluating ... ...

i_u = 1.4865671641791

STEP 3: Convert Result to Output's Unit

1.4865671641791 Ampere --> No Conversion Required

FINAL ANSWER

1.4865671641791 ≈ 1.486567 Ampere <-- Current for Loaded Admittance

(Calculation completed in 00.004 seconds)

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Created by Rahul Gupta

Chandigarh University (CU), Mohali, Punjab

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< 15 Continuous Time Signals Calculators

Current for Loaded Admittance

Go Current for Loaded Admittance = Current for Internal Admittance*Loaded Admittance/(Internal Admittance+Loaded Admittance)

Open Loop Gain of Signal

Go Open Loop Gain = 1/(2*Damping Co-efficient)*sqrt(Input Frequency/High Frequency)

Damping Co-efficient

Go Damping Co-efficient = 1/(2*Open Loop Gain)*sqrt(Input Frequency/High Frequency)

Voltage for Loaded Admittance

Go Voltage of Loaded Admittance = Current for Internal Admittance/(Internal Admittance+Loaded Admittance)

Damping Co-efficient in State-Space Form

Go Damping Co-efficient = Initial Resistance*sqrt(Capacitance/Inductance)

Resistance with respect to Damping Coefficient

Go Initial Resistance = Damping Co-efficient/(Capacitance/Inductance)^(1/2)

Coupling Co-efficient

Go Coupling Coefficient = Input Capacitance/(Capacitance+Input Capacitance)

Natural Frequency

Go Natural Frequency = sqrt(Input Frequency*High Frequency)

Periodic Signal of Time Fourier

Go Periodic Signal = sin((2*pi)/Time Periodic Signal)

Output of Time Invariant Signal

Go Time Invariant Output Signal = Time Invariant Input Signal*Impulse Response

Transfer Function

Go Transfer Function = Output Signal/Input Signal

Angular Frequency of Signal

Go Angular Frequency = 2*pi/Time Period

Time Period of Signal

Go Time Period = 2*pi/Angular Frequency

Frequency of Signal

Go Frequency = 2*pi/Angular Frequency

Inverse of System Function

Go Inverse System Function = 1/System Function

Current for Loaded Admittance Formula

Current for Loaded Admittance = Current for Internal Admittance*Loaded Admittance/(Internal Admittance+Loaded Admittance)
i_u = i_g*Y_u/(Y_g+Y_u)

Is impedance for AC or DC?

Impedance can be seen only in AC circuits. It happens due to resistive elements. It varies according to the frequency of AC current.

How to Calculate Current for Loaded Admittance?

Current for Loaded Admittance calculator uses Current for Loaded Admittance = Current for Internal Admittance*Loaded Admittance/(Internal Admittance+Loaded Admittance) to calculate the Current for Loaded Admittance, The Current for Loaded Admittance formula is defined as an ideal current source in parallel with a resistor. The resistor is referred to as the internal resistance of the source. Current for Loaded Admittance is denoted by i_u symbol.

How to calculate Current for Loaded Admittance using this online calculator? To use this online calculator for Current for Loaded Admittance, enter Current for Internal Admittance (i_g), Loaded Admittance (Y_u) & Internal Admittance (Y_g) and hit the calculate button. Here is how the Current for Loaded Admittance calculation can be explained with given input values -> 1.486567 = 4.15*1.2/(2.15+1.2).

FAQ

What is Current for Loaded Admittance?

The Current for Loaded Admittance formula is defined as an ideal current source in parallel with a resistor. The resistor is referred to as the internal resistance of the source and is represented as i_u = i_g*Y_u/(Y_g+Y_u) or Current for Loaded Admittance = Current for Internal Admittance*Loaded Admittance/(Internal Admittance+Loaded Admittance). Current for Internal Admittance refers when the currents applies on the internal admittance of generator, Loaded Admittance is an expression of the ease with which alternating current (AC) flows through a complex circuit or system & Internal Admittance is an expression of the ease with which alternating current (AC) flows through a complex circuit or system.

How to calculate Current for Loaded Admittance?

The Current for Loaded Admittance formula is defined as an ideal current source in parallel with a resistor. The resistor is referred to as the internal resistance of the source is calculated using Current for Loaded Admittance = Current for Internal Admittance*Loaded Admittance/(Internal Admittance+Loaded Admittance). To calculate Current for Loaded Admittance, you need Current for Internal Admittance (i_g), Loaded Admittance (Y_u) & Internal Admittance (Y_g). With our tool, you need to enter the respective value for Current for Internal Admittance, Loaded Admittance & Internal Admittance and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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