Momo with mass m is sliding down an inclined plane that makes an angle Φ relative to the horizontal. The coefficient of kinetic friction between Momo and the inclined plane is μk. Obtain an expression for Momo's acceleration along the incline. Assign a rotated Cartesian plane so that the acceleration is along the positive x-axis and the normal force is along the positive y-axis. The component of the weight parallel to Momo's acceleration is wx = mg_______Φ. The magnitude of the frictional force is f = μk__________. The normal force on Momo is n = mg___________Φ. With these expressions and applying Newton's second law, we arrive at an expression for Momo's acceleration: a =___________(__________ - μk __________)
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Momo with mass m is sliding down an inclined plane that makes an angle Φ relative to the horizontal. The coefficient of kinetic friction between Momo and the inclined plane is μk. Obtain an expression for Momo's acceleration along the incline.
Assign a rotated Cartesian plane so that the acceleration is along the positive x-axis and the normal force is along the positive y-axis.
The component of the weight parallel to Momo's acceleration is wx = mg_______Φ.
The magnitude of the frictional force is f = μk__________.
The normal force on Momo is n = mg___________Φ.
With these expressions and applying Newton's second law, we arrive at an expression for Momo's acceleration:
a =___________(__________ - μk __________)
Please type the answer, I have a hard time reading the written answer.
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