Electric machinery fundamentals
5th Edition
ISBN: 9780073529547
Author: Chapman, Stephen J.
Publisher: MCGRAW-HILL HIGHER EDUCATION
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Textbook Question
Chapter 1, Problem 1.1Q
What is torque? What role does torque play in the rotational motion of machines?
Expert Solution & Answer
To determine
The definition of torque.
The role of torque in the rotational motion of machines.
Explanation of Solution
Torque is nothing but an influence which is required for twisting or rotating an object about its own axis. It is also known as Moment of Force. The SI unit of torque is Nm.
Consider a figure below:
The axis is known as ‘pivot point (O)’. if the force vector is ‘F’ which is acting at a distance ‘r’ from the point O at an angle ‘
In linear motion, a force acting on any object alters the speed of the object. Similarly, in case of rotational motion, the torque increases the speed of the rotating object. In simple words, the force in the linear motion is analogous to torque in rotational motion.
Consider a cylinder which is free to rotate around its axis. If a force is applied such that the line of action passes through the center of the cylinder, the cylinder will not rotate. If the same force is applied to the right, then it will start rotating in the counter - clockwise direction. Hence, the rotation does not depend on magnitude only but also on the direction.
For instance, let the force is applied along the axis of rotation:
The force is applied such that the line of action misses the axis of rotation:
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Students have asked these similar questions
Consider the following transformer circuit assuming an ideal transformer. In this circuit
the signal generator will provide a 10-Volt peak-to-peak sinusoidal signal at a frequency
of 1.0 kHz. Assume that L₁ = 0.65 H, L2 = 0.00492 H (=4.92 mH) and that the coupling
constant = 0.99925.
+
VG1(
R1 1k
N1:N2
11.5:1
12
V1 N1
N2
V2
R2 8.2
1) Find the following using the theory presented in the prelab reading:
a) Start with Equations (2) of the prelab reading and show that the input impedance
to an ideal transformer is given by the equation for Z1 (=V1/11) in Equations (4) of
the prelab reading.
Equations (2) are: V₁ = joLI₁ + jœMI₂ and V₂ = j@MI₁ +j@L₂I₂
The equation for the input impedance is: Z₁ = 1½ = jwL₁ +
(WM)²
jwL₂+ZL
b) Assuming that Z is a real impedance, find the equations for the real and
imaginary parts of Z1.
c) Use your equations from part (b) to calculate the value of the input impedance
(Z) at an operating frequency of 200 Hz. Assume that the load impedance is 8.2
Ohms…
Use: R1 = 1.5K, R2 = 5K, R3 = 1K, R4 = 2K, R5 = 2K, R6 = 1K.
40%: Find the value for Vs (in V) such as IR2 = 1mA.
40%: Find the voltage VD.
20%: simulate the circuit in Falstad (attach the link).
A
1,5k
B
R1
Vs
L
5k
P2
R2
R6
E
C
R3
С
IR2= 1mA
D
H4
R4
2k
2k
R5
The joint pdf of random variables X=1, 2 and Y=1,2,3 is
Y
P(X,Y)= X [0.105
0.2
0.15]
0.151
0.18
Chapter 1 Solutions
Electric machinery fundamentals
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