A block A, placed on a horizontal surface with friction, is connected by a rope passing through a pulley to a suspended block B. The mass of block B is sufficient to set the system in motion and both masses accelerate with acceleration a. Test your model to obtain the kinetic friction coefficient uc and its uncertainty for this phase of the motion using the following values: We use g=(9.81±0.01) m/s^2 as usual. mA=(0.415 ± 0.005)kg; mB=(0.22 ± 0.004)kg; a=(1.48±0.04) m/s^2; find an equation giving the modulus of kinetic friction (fc) under the horizontal slider when it is accelerated by the fall of the suspended mass and the value of uncertainty as well.

A block A, placed on a horizontal surface with friction, is connected by a rope passing through a pulley to a suspended block B. The mass of block B is sufficient to set the system in motion and both masses accelerate with acceleration a. Test your model to obtain the kinetic friction coefficient uc and its uncertainty for this phase of the motion using the following values: We use g=(9.81±0.01) m/s^2 as usual. mA=(0.415 ± 0.005)kg; mB=(0.22 ± 0.004)kg; a=(1.48±0.04) m/s^2; find an equation giving the modulus of kinetic friction (fc) under the horizontal slider when it is accelerated by the fall of the suspended mass and the value of uncertainty as well.

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Question

A block A, placed on a horizontal surface with friction, is connected by a rope passing through a pulley to a suspended block B.

The mass of block B is sufficient to set the system in motion and both masses accelerate with acceleration a.

Test your model to obtain the kinetic friction coefficient uc and its uncertainty for this phase of the motion using the following values:

We use g=(9.81±0.01) m/s^2 as usual.

mA=(0.415 ± 0.005)kg;

mB=(0.22 ± 0.004)kg;

a=(1.48±0.04) m/s^2;

find an equation giving the modulus of kinetic friction (fc) under the horizontal slider when it is accelerated by the fall of the suspended mass and the value of uncertainty as well.