Ask Question
PhysicsPhysics
4 February, 16:34

Now that we have a feel for the state of the circuit in its steady state, let us obtain the expression for the current in the circuit as a function of time. Note that we can use the loop rule (going around counterclockwise) : E-vR-vL=0. Note as well that vR=iR and vL=Ldidt. Using these equations, we can get, after some rearranging of the variables and making the subsitution x=ER-i, dxx=-RLdt. Integrating both sides of this equation yields x=x0e-Rt/L. Use this last expression to obtain an expression for i (t). Remember that x=ER-i and that i0=i (0) = 0. Express your answer in terms of E, R, and L. You may or may not need all these variables. Use the notation exp (x) for ex.

+1
Answers (1)
  1. 4 February, 19:39
    0
    i (t) = (E/R) [1 - exp (-Rt/L) ]

    Explanation:

    E-vR-vL=0

    E - iR - Ldi/dt = 0

    E - iR = Ldi/dt

    Separating te variables,

    dt/L = di / (E - iR)

    Let x = E - iR, so dx = - Rdi and di = - dx/R substituting for x and di we have

    dt/L = - dx/Rx

    -Rdt/L = dx/x

    interating both sides, we have

    ∫-Rdt/L = ∫dx/x

    -Rt/L + C = ㏑x

    x = exp (-Rt/L + C)

    x = exp (-Rt/L) exp (C) A = exp (C) we have

    x = Aexp (-Rt/L) Substituting x = E - iR we have

    E - iR = Aexp (-Rt/L) when t = 0, i (0) = 0. So

    E - i (0) R = Aexp (-R*0/L)

    E - 0 = Aexp (0) = A * 1

    E = A

    So,

    E - i (t) R = Eexp (-Rt/L)

    i (t) R = E - Eexp (-Rt/L)

    i (t) R = E (1 - exp (-Rt/L))

    i (t) = (E/R) (1 - exp (-Rt/L))
Know the Answer?
Not Sure About the Answer?
Find an answer to your question ✅ “Now that we have a feel for the state of the circuit in its steady state, let us obtain the expression for the current in the circuit as a ...” in 📘 Physics if you're in doubt about the correctness of the answers or there's no answer, then try to use the smart search and find answers to the similar questions.
Search for Other Answers
You Might be Interested in
Two resistors, R1=2.79 Ω and R2=6.37 Ω, are connected in series to a battery with an EMF of 24.0 V and negligible internal resistance. Find the current I1 through R1 and the potential difference V2 across R2.
Answers (1)
What happens to an electron when energy is added?
No Answers
A cart is loaded with a brick and pulled at a constant speed along an inclined plane the the height of a seattop. If the mass of the loaded cart is 3.0 kg and the height of the seat top is 0.
Answers (1)
What are two reasons the period of Venus is shorter than the period of earth
Answers (1)
How much work is done to move a 10,000-N car 20 meters?
Answers (1)
New Questions in Physics
Which organization functions to privide clinics and surgeries i developing nations
Answers (1)
What role do convection currents play in oceans and the atmosphere?
Answers (1)
What causes density currents to form in the mediterranean sea? a. condensation b. evaporation c. transpiration d. upwelling
Answers (1)
How long does it take a car to travel 450 km at 75 km/hr
Answers (2)
A free-falling golf ball strikes the ground and exerts a force on it
Answers (1)
Home » Physics » Now that we have a feel for the state of the circuit in its steady state, let us obtain the expression for the current in the circuit as a function of time. Note that we can use the loop rule (going around counterclockwise) : E-vR-vL=0.
Sign Up Forgot Password?