Determine the new velocity of the block T seconds after leaving your hand. Assume T is small enough that the direction of the force doesn't change through this time period. Express your answer as a vector in terms of m, L, Lo,ks,Fa, and T. -((k_s*(L_0)-F_d)*T)/m (ks (Lo)-Fa)-T т Determine the new net force on the block T seconds after leaving your hand. Assume T is small enough that the direction of the force doesn't change through this time period. Express your answer as a vector in terms of m, L, Lo, ks, Fd, and T. - (k_s*L_0-F_d) - (k; · Lo – Fa) V

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
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Determine the new velocity of the block T seconds after leaving your hand. Assume T is small enough that the direction of the
force doesn't change through this time period. Express your answer as a vector in terms of m, L, Lo, ks, Få, and T.
-((k_s*(L_0)-F_d)*T)/m
(kg (Lo)-Fa):T
т
Determine the new net force on the block T seconds after leaving your hand. Assume T' is small enough that the direction of
the force doesn't change through this time period. Express your answer as a vector in terms of m, L, Lo, ks, Fd, and T'.
- (k_s*L_0-F_d)
(k, · Lo – Fa)
Transcribed Image Text:Determine the new velocity of the block T seconds after leaving your hand. Assume T is small enough that the direction of the force doesn't change through this time period. Express your answer as a vector in terms of m, L, Lo, ks, Få, and T. -((k_s*(L_0)-F_d)*T)/m (kg (Lo)-Fa):T т Determine the new net force on the block T seconds after leaving your hand. Assume T' is small enough that the direction of the force doesn't change through this time period. Express your answer as a vector in terms of m, L, Lo, ks, Fd, and T'. - (k_s*L_0-F_d) (k, · Lo – Fa)
On Earth, a block of mass m is attached to a spring and immersed in a liquid. As the block moves, the liquid always exerts a
force with a constant magnitude Fa but pointing opposite to the direction of motion. The spring has a relaxed length Lo and
stiffness kg. As shown in the diagram, the block is initially released from rest when the length of the spring is 2Lo. The bottom
surface supporting the block is frictionless. Assume that the positive x-axis points to the right.
- m
2L,
www
Transcribed Image Text:On Earth, a block of mass m is attached to a spring and immersed in a liquid. As the block moves, the liquid always exerts a force with a constant magnitude Fa but pointing opposite to the direction of motion. The spring has a relaxed length Lo and stiffness kg. As shown in the diagram, the block is initially released from rest when the length of the spring is 2Lo. The bottom surface supporting the block is frictionless. Assume that the positive x-axis points to the right. - m 2L, www
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