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Value of Resistance Solution

STEP 0: Pre-Calculation Summary
Formula Used
r_tot = Excitation Speed*Total Inductance/Charge
R = ω*LT/Q
This formula uses 3 Variables
Variables Used
Excitation Speed - Excitation Speed is the speed at which the body is made vibrate in forced vibration (Measured in Radian per Second)
Total Inductance - Total Inductance is the total inductance of the oscillator (Measured in Henry)
Charge - The Charge is the total charge measured by the meter (Measured in Coulomb)
STEP 1: Convert Input(s) to Base Unit
Excitation Speed: 10 Radian per Second --> 10 Radian per Second No Conversion Required
Total Inductance: 30 Henry --> 30 Henry No Conversion Required
Charge: 100 Coulomb --> 100 Coulomb No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
R = ω*LT/Q --> 10*30/100
Evaluating ... ...
R = 3
STEP 3: Convert Result to Output's Unit
3 Ohm --> No Conversion Required
FINAL ANSWER
3 Ohm <-- Total Resistance
(Calculation completed in 00.016 seconds)

11 Other formulas that you can solve using the same Inputs

Value of Unknown Resistance of Hays' bridge
r_x = ((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 Unknown Inductance
l_x = (Resistance 2*Resistance 3*Capacitance 1)/(1+((Excitation Speed^2)*(Resistance 1^2)*(Capacitance 1^2))) Go
Value of Dissipation Factor
d_f = Excitation Speed*Capacitance 2*((Resistance 1*Resistance 4/Resistance 3)-Resistance 2) Go
Measured Value of Charge
charge_val = Excitation Speed*Total Inductance/(Total Resistance+Rsh) Go
Frequency of Oscillation of Hartley Oscillator
freq_osc = 1/(2*pi*sqrt(Total Inductance*Total Capacitance)) Go
Frequency of Oscillation
freq_osc = 1/(2*pi*sqrt(Total Inductance*Total Capacitance)) Go
Value of Ic
i_c = Current 1*Excitation Speed*Resistance 3*Capacitance 1 Go
True Value of Charge
charge_val = Excitation Speed*Total Inductance/Total Resistance Go
Value of Quality Factor of Schering's Bridge
q_f = Excitation Speed*Unknown Capacitance*Unknown Resistance Go
Value of Quality Factor of Maxwell's Bridge
q_f = Excitation Speed*Unknown Inductance/Unknown Resistance Go
Value of Quality Factor of Hays' Bridge
q_f = 1/(Excitation Speed*Resistance 1*Capacitance 1) Go

Value of Resistance Formula

r_tot = Excitation Speed*Total Inductance/Charge
R = ω*LT/Q

What are the applications of the Q meter?

The Q meter measures the quality factor of the circuit which shows the total energy dissipated by it. It also explains the properties of the coil and capacitor. The Q meter uses in a laboratory for testing the radio frequency of the coils.

How to Calculate Value of Resistance?

Value of Resistance calculator uses r_tot = Excitation Speed*Total Inductance/Charge to calculate the Total Resistance, The Value of Resistance formula is used to calculate the value of effective resistance in the Q meter network. Total Resistance and is denoted by R symbol.

How to calculate Value of Resistance using this online calculator? To use this online calculator for Value of Resistance, enter Excitation Speed (ω), Total Inductance (LT) and Charge (Q) and hit the calculate button. Here is how the Value of Resistance calculation can be explained with given input values -> 3 = 10*30/100.

FAQ

What is Value of Resistance?
The Value of Resistance formula is used to calculate the value of effective resistance in the Q meter network and is represented as R = ω*LT/Q or r_tot = Excitation Speed*Total Inductance/Charge. Excitation Speed is the speed at which the body is made vibrate in forced vibration, Total Inductance is the total inductance of the oscillator and The Charge is the total charge measured by the meter.
How to calculate Value of Resistance?
The Value of Resistance formula is used to calculate the value of effective resistance in the Q meter network is calculated using r_tot = Excitation Speed*Total Inductance/Charge. To calculate Value of Resistance, you need Excitation Speed (ω), Total Inductance (LT) and Charge (Q). With our tool, you need to enter the respective value for Excitation Speed, Total Inductance and Charge 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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