A block of mass 500 g is attached to a spring of spring constant 80 N/m (see the following figure). Theother end of the spring is attached to a support while the mass rests on a rough surface with acoefficient of friction of 0.20 that is inclined at angle of 30º. The block is pushed along the surface tillthe spring compresses by 10 cm and is then released from rest. (a) How much potential energy wasstored in the block-spring-support system when the block was just released?www.30°

A block of mass 500 g is attached to a spring of spring constant 80 N/m (see the following figure). The other end of the spring is attached to a support while the mass rests on a rough surface with a coefficient of friction of 0.20 that is inclined at angle of 300. The block is pushed along the surface till the spring compresses by 10 cm and is then released from rest. (a) How much potential energy was stored in the block-spring-support system when the block was just released? www ww 30°

A block of mass 500 g is attached to a spring of spring constant 80 N/m (see the following figure). The other end of the spring is attached to a support while the mass rests on a rough surface with a coefficient of friction of 0.20 that is inclined at angle of 300. The block is pushed along the surface till the spring compresses by 10 cm and is then released from rest. (a) How much potential energy was stored in the block-spring-support system when the block was just released? www ww 30°

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Question

A block of mass 500 g is attached to a spring of spring constant 80 N/m (see the following figure). The
other end of the spring is attached to a support while the mass rests on a rough surface with a
coefficient of friction of 0.20 that is inclined at angle of 30º. The block is pushed along the surface till
the spring compresses by 10 cm and is then released from rest. (a) How much potential energy was
stored in the block-spring-support system when the block was just released?
www.
30°

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