A block of mass 1.37 kg is connected to a spring of spring constant 136 N/m which is then set into oscillation on a surface with a small coefficient of kinetic friction. The mass is pulled back 32.8 cm to the right and released. On the first right to left oscillation, the mass reaches 31.64 cm to the left. a. what is the coefficient of friction? b. To what distance does the mass trturn on the slide back to the right? c. What is the total energy lost by the system in the first full oscillation? d. What percentage of the total energy was lost in the first full oscillation?

A block of mass 1.37 kg is connected to a spring of spring constant 136 N/m which is then set into oscillation on a surface with a small coefficient of kinetic friction. The mass is pulled back 32.8 cm to the right and released. On the first right to left oscillation, the mass reaches 31.64 cm to the left. a. what is the coefficient of friction? b. To what distance does the mass trturn on the slide back to the right? c. What is the total energy lost by the system in the first full oscillation? d. What percentage of the total energy was lost in the first full oscillation?

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Question

a. what is the coefficient of friction?

b. To what distance does the mass trturn on the slide back to the right?

c. What is the total energy lost by the system in the first full oscillation?

d. What percentage of the total energy was lost in the first full oscillation?

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