(II) Figure 4–45 shows a block (mass m^) on a smooth hori- zontal surface, connected by a thin cord that passes over a pulley to a second block (mg), which hangs vertically. (a) Draw a free-body diagram for each block, showing the force of gravity on each, the force (tension) exerted by the cord, and any normal force. (b) Apply Newton's second law to find formulas or the acceleration of the system and for the tension in the cord. Ignore friction and he masses of the pulley and cord. mA FIGURE 4–45 Problems 51, 52, and 53. Mass mA rests on a smooth horizontal mg

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Chapter1: Units, Trigonometry. And Vectors
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(II) Figure 4–45 shows a block (mass ma) on a smooth hori-
zontal surface, connected by a thin cord that passes over a
pulley to a second block (mB), which hangs vertically. (a) Draw
a free-body diagram for each block, showing the force of
gravity on each, the force (tension) exerted by the cord, and any
normal force. (b) Apply Newton's second law to find formulas
for the acceleration of the system and for the tension in the
cord. Ignore friction and
the masses of the pulley
and cord.
FIGURE 4-45
Problems 51, 52,
and 53. Mass m rests
on a smooth horizontal
surface, mg hangs
vertically.
mg
Transcribed Image Text:(II) Figure 4–45 shows a block (mass ma) on a smooth hori- zontal surface, connected by a thin cord that passes over a pulley to a second block (mB), which hangs vertically. (a) Draw a free-body diagram for each block, showing the force of gravity on each, the force (tension) exerted by the cord, and any normal force. (b) Apply Newton's second law to find formulas for the acceleration of the system and for the tension in the cord. Ignore friction and the masses of the pulley and cord. FIGURE 4-45 Problems 51, 52, and 53. Mass m rests on a smooth horizontal surface, mg hangs vertically. mg
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