A wooden block of mass M, attached to a massless spring with spring constant k, rests on its equilibrium position on a frictionless floor. A silver dart with mass m and velocity v is shot into the block and sticks to it. What is the maximum compression of the spring? m k m+M Ak (m + M)v √mk mv (m + M)k

A wooden block of mass M, attached to a massless spring with spring constant k, rests on its equilibrium position on a frictionless floor. A silver dart with mass m and velocity v is shot into the block and sticks to it. What is the maximum compression of the spring? m k m+M Ak (m + M)v √mk mv (m + M)k

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Description: Please answer best choice. Thank you. Will give thumbs up. A wooden block of mass M, attached to a massless spring with spring constant k, rests on itsequilibrium position on a frictionless floor. A silver dart with mass m and velocity v is shot into

Physics for Scientists and Engineers: Foundations and Connections

1st Edition

ISBN:9781133939146

Author:Katz, Debora M.

Publisher:Katz, Debora M.

Chapter10: Systems Of Particles And Conservation Of Momentum

Section: Chapter Questions

Problem 40PQ: There is a compressed spring between two laboratory carts of masses m1 and m2. Initially, the carts...

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There is a compressed spring between two laboratory carts of masses m1 and m2. Initially, the carts are held at rest on a horizontal track (Fig. P10.40A). The carts are released, and the cart of mass m1 has velocity v1 in the positive x direction (Fig. P10.40B). Assume rolling friction is negligible. a. What is the net external force on the two-cart spring system? b. Find an expression for the velocity of cart 2. c. Sometimes, mistakes are made in a laboratory. For example, what changes in parts (a) and (b) if the track is not level as shown in Figure P10.40C? Explain your answer.
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A wooden block of mass M, attached to a massless spring with spring constant k, rests on its equilibrium position on a frictionless floor. A silver dart with mass m and velocity v is shot into the block and sticks to it. What is the maximum compression of the spring? mu O √(m + M)k O m+M k ○ (m + M)v √mk m k
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