Please show a complete solution. 2. Determine the distance traveled of a car using all data below:Time in mins.12.734.5Velocity, m/min65.578.5 1. Write your solutions neatly.2. Collate your answer in one file and save as PDF.3. Make sure to submit on time to avoid deductions.1. In a circuit with impressed voltage &(1) and inductance L, Kirchhoff's first law gives therelationshipdie(t) = L +Ri,dtwhere R is the resistance in the circuit and i is the current. Suppose we measure the current forseveral values of t and obtain:Time (t)1.001.011.021.031.04Current (i)3.413.523.663.723.90where t is measured in seconds, i is in amperes, the inductance L is a constant 0.98 henries,and the resistance is 0.142 ohms. Approximate voltage e(t) when t = 1.04.

“Since you have asked multiple question, we will solve the first question for you. If you want any…

1. In a circuit with impressed voltage &(1) and inductance L, Kirchhoff's first law gives the relationship di e(1) = L+Ri, dt where R is the resistance in the circuit and i is the current. Suppose we measure the current for several values of t and obtain: Time (t) 1.00 1.01 1.02 1.03 1.04 Current () 3.41 3.52 3.66 3.72 3.90 where t is measured in seconds, i is in amperes, the inductance L is a constant 0.98 henries, and the resistance is 0.142 ohms. Approximate voltage e(t) when t = 1.04.

1. In a circuit with impressed voltage &(1) and inductance L, Kirchhoff's first law gives the relationship di e(1) = L+Ri, dt where R is the resistance in the circuit and i is the current. Suppose we measure the current for several values of t and obtain: Time (t) 1.00 1.01 1.02 1.03 1.04 Current () 3.41 3.52 3.66 3.72 3.90 where t is measured in seconds, i is in amperes, the inductance L is a constant 0.98 henries, and the resistance is 0.142 ohms. Approximate voltage e(t) when t = 1.04.

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter29: Dc Generators

Section: Chapter Questions

Problem 1PA: You are working as an electrician in a large steel manufacturing plant, and you are in the process...

See similar textbooks

Similar questions

You are working as an electrician in a large steel manufacturing plant, and you are in the process of doing preventive maintenance on a large DC generator. You have megged both the series and shunt field windings and found that each has over 10 M to ground. Your ohmmeter, however, indicates a resistance of 1.5 across terminals S1andS2. The ohmmeter indicates a resistance of 225 between terminals F1andF2. Are these readings normal for this type machine, or is there a likely problem? Explain your answer.
B.. What is the load current for the circuit shown in the figure? Please choose one: a. 6.0 mA b. 3.0 mA C. 9.0 mA D. 7.5 mA
please sketch them all and show a step by step solution
2 The figure is a graph of ... 5 (5 Points) Current Voltage the current across a voltage as a function of the potential difference through it the resistance as a function of the current across a component the current through a component as a function of the voltage across it All three of the above (a), (b), and (c) are true None of the above (a), (b), or (c) is true
Number 9 Please show your detailed solution. Number 9 Please show you detailed solution. A 50-ohm resistor is in series with a 40-?F capacitor across a constant potential source of 180 volts. Determine frequency that will give current of 3.13 amp. A. 250 Hz C. 160 Hz B. 200 Hz D. 140 Hz
lell L1 R Ro 2. In this figure, assume arbitrary numbers for R1, R2, L1, and L2 including some number for the battery E. Find the rate of current in which inductor one (L1) is changing just after the switch is closed. Next, find the current in L1 after some time after the switch has been closed. lell
Using superstition, find the value of i0 if voltage source at the left is 10, angle - 30 degrees V, and current source is 2, angle zero degrees. A total of three sources will be considered, separately. The 24 volt source is DC. When this source is acting alone, the capacitor will be open-circuited.
4. WHAT IS MUTUAL INDUCTION AND SELF INDUCTION. WHAT IS THE UNIT OF INDUCTANCE.
For the network shown in figure (3), if the switch is closed for 2usec and then opened for Susec, find mathematical expressions for vi and in of both periods of time and then plot the waveforms of vL and i as a function of time.
Problem 3 -10t The current flowin through a 5 H coil is given by 12e7 A. Find an expresion for the voltage, power, and stored energy. Sketch the waveforms to scale for the current, voltage, power, and energy from t = 0 to t = 500 ms.
1. Solve the total resistance, total current, individual currents, and individual voltages of the following dc circuits.
Basic Electrical EngineeringDraw symbols of electrical components. Note: You may use both IEC and NEMA symbols. - Conductors crossing but not connected- Conductors crossing and connected - DC source other than battery- DC generator- AC voltage source- Ideal current source- Ideal Voltage Source- Current Controlled Current Source- Current Controlled Voltage Source- Voltage Controlled Current Source - Voltage Controlled Voltage Source