A car of mass mpah = 1150 kg is capable of a maximum acceleration of 5.50 m/s. If this car is required to push a stalled car of mass maan - 1450 kg. what is the maximum magnitude of the acceleration a of the tw0-car system? %3! 2.15 m/s hconect

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Chapter1: Units, Trigonometry. And Vectors
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A car of mass mpah = 1150 kg is capable of a maximum acceleration of 5.50 m/s. If this car is required to push a stalled
car of mass maan - 1450 kg. what is the maximum magnitude of the acceleration a of the tw0-car system?
%3!
2.15
Incerect
Two blocks, My and M, are connected by a massless string
that passes over a massless pulley as shown in the figure.
M2, which has a mass of 25.0 kg. rests on a Kong ramp of
angle -29.0'. Friction can be ignored in this problem.
M,
M.
Determine the mass m of block M for which the two
blocks are in cquilibrium (no acceleralion).
12.8
kg
If the actual mass of M, is 5.00 kg and the system is
allowed to move, what is the acceleration a of the two
-257
blocks? A positive acceleration corresponds to M, moving
up the incline.
m/s
Whal distance d does block My move in 2.00 s?
5.14
Incarrse
Transcribed Image Text:A car of mass mpah = 1150 kg is capable of a maximum acceleration of 5.50 m/s. If this car is required to push a stalled car of mass maan - 1450 kg. what is the maximum magnitude of the acceleration a of the tw0-car system? %3! 2.15 Incerect Two blocks, My and M, are connected by a massless string that passes over a massless pulley as shown in the figure. M2, which has a mass of 25.0 kg. rests on a Kong ramp of angle -29.0'. Friction can be ignored in this problem. M, M. Determine the mass m of block M for which the two blocks are in cquilibrium (no acceleralion). 12.8 kg If the actual mass of M, is 5.00 kg and the system is allowed to move, what is the acceleration a of the two -257 blocks? A positive acceleration corresponds to M, moving up the incline. m/s Whal distance d does block My move in 2.00 s? 5.14 Incarrse
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