What is the time constant of this circuit? What is the current
through the inductor at time t = 0.25s? What is the maximum current
through the inductor? How much energy is stored in the inductor at
max current?
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What is the time constant of this circuit? What is the current through the inductor at...
What is the time constant of this circuit? What is the current
through the inductor at time t = 0.25s? What is the maximum current
through the inductor? How much energy is stored in the inductor at
max current?
S1 dosed at t=0 S1 10 Ohms 1 Ohm 10 H 10 Ohms 5V _ 10 Ohms
1. An RL circuit comprised of one resistor and one inductor is shown in the figure below. The resistor and inductor are connected to a source of emf with negligible internal resistance by a switch a. The emf for this circuit is 12.0 V. The resistance of the resistor is 0.35 , and the inductance of the inductor is 53 mH. For the circuit below: a. Sketch the graph of current through the inductor as a function of time after...
In an RL circuit, the time constant for an inductor is defined
as t( torque) =R/L, where R is the resisitance and L is the
inductance.
The transient time of an inductor is defined as five times the
time constant . It represents the time it takes the inductor to
store maximum energy in the magnetic field of the inductor. When
the switich is closed, the current is increasing according to the
following equation?
What is the energy dissipated as...
1. An RL circuit comprised of one resistor and one inductor is shown in the figure below. The resistor and inductor are connected to a source of emf with negligible internal resistance by a switch a. The emf for this circuit is 12.0 V. The resistance of the resistor is 0.35 12, and the inductance of the inductor is 53 mH. For the circuit below: a. Sketch the graph of current through the inductor as a function of time after...
1. An RL circuit comprised of one resistor and one inductor is shown in the figure below. The resistor and inductor are connected to a source of emf with negligible internal resistance by a switch a. The emf for this circuit is 12.0 V. The resistance of the resistor is 0.35 12, and the inductance of the inductor is 53 mH. For the circuit below: a. Sketch the graph of current through the inductor as a function of time after...
A) at what time t_a will the current in the circuit reach 1/2
of its maximum value?
B) at what time t_b will the energy stored in the inductor
reach 1/2 of its maximum value?
Problem 5 (10 POINTS) A battery, ε-30.0V, a resistor, R = 40.00, and an inductor, L-1.5mH, are con- nected in series with an open switch. The switch is then closed at time t = 0. (a) At what time ta will the current in the...
Help please ...!
An RL circuit comprised of one resistor and one inductor is shown in the figure below. The resistor and inductor are connected to a source of emf with negligible internal resistance by a switch a. The emf for this circuit is 12.0 V. The resistance of the resistor is 0.35 Q, and the inductance of the inductor is 53 mH. For the circuit below: Sketch the graph of current through the inductor as a function of time...
Please help, I'm struggling. Thank you
An RL circuit comprised of one resistor and one inductor is shown in the figure below. The resistor and inductor are connected to a source of emf with negligible internal resistance by a switch a. The emf for this circuit is 12.0V. The resistance of the resistor is 0.35 12, and the inductance of the inductor is 53 mH. For the circuit below: a. Sketch the graph of current through the inductor as a...
A charged capacitor and an inductor are connected in series. At time t=0, the current is zero, but the capacitor is fully charged. If T is the period of the resulting oscillations in the LC circuit, the next time after T=0 where the energy stored in the magnetic field of the inductor will be a maximum is:
The circuit in the diagram consists of a 17.7 22 resistor, an inductor, and a 23.3 V battery. The inductor is made from a solenoid with the following parameters: 4V. 0000 Cross-Section Area = 16.9 cm2 Length = 3.6 cm Number of turns of wire = 1255 Part A Calculate the inductance of the inductor. Part B Calculate the time constant for the circuit. Part How long will it take for the current from the battery to reach 85% of...