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An inductor of L = 7.75 H with negligible resistance is placed in series with a...
A 8.15 H inductor with negligible resistance is placed in series with a 12.1 V battery, a 3.00 Q resistor, and a switch. The switch is closed at time t 0 seconds (a) Calculate the initial current at t-0 seconds. Number (b) Calculate the current as time approaches infinity. Number (c) Calculate the current at a time of 2.17 s. Number (d) Determine how long it takes for the current to reach half of its maximum Number
A 35.0-V battery with negligible internal resistance, a 50.0-Ω resistor, and a 1.25-mH inductor with negligible resistance are all connected in series with an open switch. The switch is suddenly closed. How long after closing the switch will the current through the inductor reach one-half of its maximum value? How long after closing the switch will the energy stored in the inductor reach one-half of its maximum value?
A 38.0-V battery with negligible internal resistance, a 48.0-Ohm resistor, and a 1.45-mH inductor with negligible resistance are all connected in series with an open switch. The switch is suddenly closed. Part A How long after closing the switch will the current through the inductor reach one-half of its maximum value? Part B How long after closing the switch will the energy stored in the inductor reach one-half of its maximum value?
A 33.0-V battery with negligible internal resistance, a 49.0-Ω resistor, and a 1.25-mH inductor with negligible resistance are all connected in series with an open switch. The switch is suddenly closed. How long after closing the switch will the energy stored in the inductor reach one-half of its maximum value?
A 35.0-V battery with negligible internal resistance, a 50.0-9 resistor, and a 125-mH inductor with negligible resis all connected in series with an open switch. The switch is suddenly closed. Part A How long after closing the switch wil the current through the inductor reach one-half of its maximum value? ANSWER: 2 / Part B How long after closing the switch will the energy stored in the inductor reach one-half of its maximum value? ANSWER:
3. A circuit contains a switch, a switch is closed at t0 = 10 V battery, a Imax-20 A fuse, and a L = 5.0 H inductor. The ImAx (a) Write a loop equation for the circuit to find a relation between dI/dt, L and ε (b) Integrate the result of part a to find the I at a function of time t with parameters to fully specify I(t) you must consider the initial value of the current. and L....
Constants An inductor with inductance L 0.500 H and negligible resistance is connected to a battery, a switch S, and two resistors, R1 14.0 2 and R2 17.0 2. The battery 2 '3 R2 has emf 96.0 V and negligible internal resistance. S is closed at t- 0. Part A What is the current 21 just after S is closed? Express your answer with the appropriate units. LA Value Units Submit Request Answer Part B What is the current i2...
1. The switch S is closed at t = 0 (assume that the battery voltage remains constant at 10V and the resistance of the inductor is negligible). Calculate the voltage across each resistor a very long time after the switch has been closed and all currents and voltages reached steady values. (5 points)1. The switch S is closed at t = 0 (assume that the battery voltage remains constant at 10V and the resistance of the inductor is negligible). Calculate...
Question 20 An electromagnet can be modeled as an inductor in series with a resistor. Consider a large electromagnet of inductance L17 H and resistance R - 7.5V connected to a 19V battery and switch as in the figure below. s + E 000 L R W Find the time it takes the current to reach 95.0% of its maximum value after the switch is closed.
The figure below shows a circuit consisting of a 12.0V battery in series with an inductor with inductance - 11.0 H, a resistor with resistance R - 2.500, and a switch, Initially open, (a) After the switch is closed, what is the maximum current in A) that will flow through the circuit? (b) What is the time constant (ins) of the circuit? (c) After the switch is closed, how much time (ins) does it take for the current to reach...