A block with mass m= 1.8 kg sits on top of a block with mass M 5.6 kg which sits on a table. The coefficients of friction (both static and kinetic) between all surfaces are , = 4 ==1. A string with negligible mass is connected to each mass and wraps halfway around a pulley with negligible mass, as shown in figure What is the acceleration of the pulley, in m/s, at the instant the force, F-92.63 N is applied on the pulley horizontally to the right as shown in figure? g = 10 m/s alınız) H = 1 O 21.00 M O 25.20 O 7.00 O 4.90 O 10.50

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1.8 kg sits on top of a block with mass M = 5.6 kg which sits on a table. The coefficients of friction (both static
A block with mass m=
and kinetic) between all surfaces are u, = H = H=1 A string with negligible mass is connected to each mass and wraps halfway
around a pulley with negligible mass, as shown in figure. What is the acceleration of the pulley, in m/s, at the instant the force,
F= 92.63 N is applied on the pulley horizontally to the right as shown in figure?
9 = 10 m/s alınız)
H = 1
F
O 21.00
M
O 25.20
O 700
O 4.90
O 1050
Transcribed Image Text:1.8 kg sits on top of a block with mass M = 5.6 kg which sits on a table. The coefficients of friction (both static A block with mass m= and kinetic) between all surfaces are u, = H = H=1 A string with negligible mass is connected to each mass and wraps halfway around a pulley with negligible mass, as shown in figure. What is the acceleration of the pulley, in m/s, at the instant the force, F= 92.63 N is applied on the pulley horizontally to the right as shown in figure? 9 = 10 m/s alınız) H = 1 F O 21.00 M O 25.20 O 700 O 4.90 O 1050
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