1. The 50-kg crate is projected along the floor with an initial speed of A m/s at x = 0. The coefficient of kinetic friction is 0.40. Calculate the time required for the crate to come to rest and the corresponding distance x traveled. A is the last digit of your student number replacing any 0 with 10. For example, if your student number is 400027581 then A = 1, if your student number is 400027580 then A 10, etc. vo = A m/s 50 kg = 0.40 %3D

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The 50-kg crate is projected along the floor with an initial speed of A m/s at x = 0. The coefficient of kinetic friction is 0.40. Calculate the time required for the crate to come to rest and the corresponding distance x traveled. A is the last digit of your student number replacing any 0 with 10. For example, if your student number is 400027581 then A = 1, if your student number is 400027580 then A = 10, etc.

1. The 50-kg crate is projected along the floor with an initial speed of A m/s at x = 0. The
coefficient of kinetic friction is 0.40. Calculate the time required for the crate to come to rest
and the corresponding distance x traveled. A is the last digit of your student number
replacing any 0 with 10. For example, if your student number is 400027581 then A = 1, if
your student number is 400027580 then A = 10, etc.
vo = A m/s
50 kg
He = 0.40
%3D
Transcribed Image Text:1. The 50-kg crate is projected along the floor with an initial speed of A m/s at x = 0. The coefficient of kinetic friction is 0.40. Calculate the time required for the crate to come to rest and the corresponding distance x traveled. A is the last digit of your student number replacing any 0 with 10. For example, if your student number is 400027581 then A = 1, if your student number is 400027580 then A = 10, etc. vo = A m/s 50 kg He = 0.40 %3D
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