Nikita Suryawanshi
Vellore Institute of Technology (VIT), Vellore
Nikita Suryawanshi has created this Calculator and 100+ more calculators!
Payal Priya
Birsa Institute of Technology (BIT), Sindri
Payal Priya has verified this Calculator and 500+ more calculators!

11 Other formulas that you can solve using the same Inputs

Value of Unknown Resistance
Unknown Resistance=((Excitation Speed^2)*Resistance 1*Resistance 2*Resistance 3*(Capacitance 1^2))/(1+((Excitation Speed^2)*(Resistance 1^2)*(Capacitance 1^2))) GO
Value of Thevenin Resistance
Resistance (Thevenin)=((Resistance 1*Resistance 3)/(Resistance 1+Resistance 3))+((Resistance 2*Unknown Resistance)/(Resistance 2+Unknown Resistance)) GO
Instantaneous Deflecting Torque
Torque (inst)=Resistance*Spring Constant*(((Current 1)^2)-((Current 2)^2)) GO
Total Power
Power=(Voltage 1*Current 1)+(Voltage 2*Current 2)+(Voltage 3*Current 3) GO
Value of Quality Factor
Quality Factor=Excitation Speed*Unknown Inductance/Unknown Resistance GO
Value of Unknown Resistance
Unknown Resistance=(Resistance 2*Resistance 3)/Resistance 1 GO
Vale of Unknown Inductance
Unknown Inductance=Resistance 2*Resistance 3*Capacitance 1 GO
Value of Unknown Resistance
Unknown Resistance=Resistance 1*Resistance 3/Resistance 2 GO
Value of Unknown Resistance
Unknown Resistance=Resistance 2*Resistance 3/Resistance 1 GO
Power in Wattmeter 1
Power 1=sqrt(3)*Voltage (total)*Current 1*cos(30-Angle) GO
EMF across Galvanometer
EMF=Resistance*(((Current 1)^2)-((Current 2)^2)) GO

Value of I<sub>c</sub> Formula

Current (Capacitor)=Current 1*Excitation Speed*Resistance 3*Capacitance 1
I<sub>c</sub>=I<sub>1</sub>*ω*R<sub>3</sub>*C<sub>x</sub>
More formulas
Value of R<sub>ab</sub> GO
Value of R<sub>cb</sub> GO
Value of Unknown Resistance GO
Value of Unknown Resistance GO
Vale of Unknown Inductance GO
Value of Quality Factor GO
Value of Unknown Resistance GO
Value of Unknown Inductance GO
Value of Quality Factor GO
Value of Unknown Resistance GO
Value of Unknown Inductance GO
Value of Unknown Resistance GO
Value of Unknown Capacitance GO
Value of Quality Factor GO
Value of ω GO
Value of Resistance Ratio GO
Value of f GO
Value of Unknown Capacitance GO
Value of Unknown Capacitance with Dielectric Losses GO
Value of Dissipation Factor GO

What are the disadvantages of Anderson's bridge?

Anderson's bridge is more complex and complicated. The additional junction point increases the difficulty of shielding.

How to Calculate Value of Ic?

Value of Ic calculator uses Current (Capacitor)=Current 1*Excitation Speed*Resistance 3*Capacitance 1 to calculate the Current (Capacitor), The Value of Ic formula is used to calculate the current through the modifying capacitor and resistor n Anderson's bridge. Current (Capacitor) and is denoted by Ic symbol.

How to calculate Value of Ic using this online calculator? To use this online calculator for Value of Ic, enter Current 1 (I1), Excitation Speed (ω), Resistance 3 (R3) and Capacitance 1 (Cx) and hit the calculate button. Here is how the Value of Ic calculation can be explained with given input values -> 125 = 5*10*25*0.1.

FAQ

What is Value of Ic?
The Value of Ic formula is used to calculate the current through the modifying capacitor and resistor n Anderson's bridge and is represented as Ic=I1*ω*R3*Cx or Current (Capacitor)=Current 1*Excitation Speed*Resistance 3*Capacitance 1. Current 1 is the current flowing through the first arm, Excitation Speed is the speed at which the body is made vibrate in forced vibration, Resistance 3 is the value of resistance connected in arm CD (ABCD is labelled clockwise, with A being labelled at the top) and Capacitance 1 is the value of the capacitor in arm AD in parallel with Resistance 1.
How to calculate Value of Ic?
The Value of Ic formula is used to calculate the current through the modifying capacitor and resistor n Anderson's bridge is calculated using Current (Capacitor)=Current 1*Excitation Speed*Resistance 3*Capacitance 1. To calculate Value of Ic, you need Current 1 (I1), Excitation Speed (ω), Resistance 3 (R3) and Capacitance 1 (Cx). With our tool, you need to enter the respective value for Current 1, Excitation Speed, Resistance 3 and Capacitance 1 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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