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Elements Of Electromagnetics
7th Edition
ISBN: 9780190698614
Author: Sadiku, Matthew N. O.
Publisher: Oxford University Press
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
Transcribed Image Text:50 mm and the coefficient of friction between the blocks and the drum is 0.25.
30°
Q9/ braking system has its braking lever inclined at an angle
of 30° to the horizontal plane, as shown in Figure. The
diameter of the brake drum is 540 mm and rotates
clockwise; the angle of contact surface of the block is
50. At the instant the lever is pressed on the brake drum
with a vertical force of 600 N. The coefficient of friction
between the brake shoe and the brake drum is 0.4.
Assume that the lever and brake shoe are perfectly rigid Brake drum-
and possess negligible weight. Find the braking torque.
-0.4 m-
Horizontal plane
0.8 m
600 N
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- i need the answer quicklyarrow_forwardQ1/ Figure shows a single block brake applied to a drum by a lever AB which is pivoted at a fixed point A. The radius of the drum is 160 mm. The coefficient of friction at the brake lining is 0.3 and the angle of contact is 40°. If the drum rotates anticlockwise, find the braking torque due to the applied force of 600 N at B. 14-200-> mm 600 Narrow_forward
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