End Date: 6/19/2022 11:59:00 PM Problem 9: A block of mass 5.5 kg is sitting on a frictionless ramp with a spring at the bottom that has a spring constant of 440 N/m (refer to the figure). The angle of the ramp with respect to the horizontal is 24", Otheespertta.com % Part (a) The block, starting from rest, slides down the ramp a distance 76 cm before hitting the spring. How far, in centimeters, is the spring compressed as the block comes to momentary rest? Ar= sin()) cos() ( 7 9 HOME tan() acos() E 1 cotan() asin()) 5 6 atan() acotan() sinh() 1 2 3 cosh() tinh() cotanh() + O Degrees VOD Submit Hint Feedback I give up! Part (b) After the block comes to rest, the spring pushes the block back up the ramp. How fast, in meters per second, is the block moving right after it comes off the spring? Part (c) What is the change of the gravitational potential energy, in joules, between the original position of the block at the top of the ramp and the position of the block when the spring is fully compressed? Radians
End Date: 6/19/2022 11:59:00 PM Problem 9: A block of mass 5.5 kg is sitting on a frictionless ramp with a spring at the bottom that has a spring constant of 440 N/m (refer to the figure). The angle of the ramp with respect to the horizontal is 24", Otheespertta.com % Part (a) The block, starting from rest, slides down the ramp a distance 76 cm before hitting the spring. How far, in centimeters, is the spring compressed as the block comes to momentary rest? Ar= sin()) cos() ( 7 9 HOME tan() acos() E 1 cotan() asin()) 5 6 atan() acotan() sinh() 1 2 3 cosh() tinh() cotanh() + O Degrees VOD Submit Hint Feedback I give up! Part (b) After the block comes to rest, the spring pushes the block back up the ramp. How fast, in meters per second, is the block moving right after it comes off the spring? Part (c) What is the change of the gravitational potential energy, in joules, between the original position of the block at the top of the ramp and the position of the block when the spring is fully compressed? Radians
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