The linear DC machine, shown below, has a battery voltage VB=112 V, an internal resistance R1=0.4 0, bar length=11 m, and magnetic flux density B=D0.17 T. R1 directed into the page VB X X Answer the following: a) If 27 force pointing to the left is applied, find the steady-state speed of the bar and the machine efficiency? b) If 26 force pointing to the right is applied and the magnetic field is weakened to 0.1, find the machine steady-state speed the bar power, and battery power?
The linear DC machine, shown below, has a battery voltage VB=112 V, an internal resistance R1=0.4 0, bar length=11 m, and magnetic flux density B=D0.17 T. R1 directed into the page VB X X Answer the following: a) If 27 force pointing to the left is applied, find the steady-state speed of the bar and the machine efficiency? b) If 26 force pointing to the right is applied and the magnetic field is weakened to 0.1, find the machine steady-state speed the bar power, and battery power?
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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As per bartleby honor code I can submit 3 questions. Solve please solve both the subdivisions
Transcribed Image Text:The linear DC machine, shown below, has a battery voltage VB=112
V, an internal resistance R1=0.4 Q, bar length=11 m, and magnetic
flux density B=0.17 T.
R1
directed into the page
VB
Answer the following:
a) If 27 force pointing to the left is applied, find the steady-state
speed of the bar and the machine efficiency?
b) If 26 force pointing to the right is applied and the magnetic field
is weakened to 0.1, find the machine steady-state speed the bar
power, and battery power?
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