Explanation Given Information: m 1 = 250 g m 2 = 20 0 g Coefficient of kinetic friction between plane and block = 0 .100 Formula Used: Third equation of motion: v 2 = v 0 2 + 2 a Δ x Newton’s second law of motion: F → n e t = m a → Calculation: The forces acting on the block are sown in the diagram below. m:math display='block'> v 2 = v 0 2 + 2 a Δ x Substitute v 0 = 0 in v 2 = v 0 2 + 2 a Δ x v 2 = v 0 2 + 2 a Δ x = 0 + 2 a Δ x = 2 a Δ x The velocity is given as v = 2 a Δ x Apply F → n e t = m a → to the block whose mass is m 1 . The net force acts along the x-direction: ∑ F x = T − f k − m 1 g sin 30 o = m 1 a ... ( 1 ) The net force along y-direction is given as. ∑ F y = F n , 1 − m 1 g sin 30 o = 0 ... ( 2 ) Use f k = μ k F n , substitute equation ( 2 ) in ( 1 ) and obtain T − μ k m 1 g cos 30 o − m 1 g sin 30 o = m 1 a ... ( 3 ) The weight of the block pulls it downward. Apply Newton’s second law for mass m 2 along the vertical direction. m 2 g − T = m 2 a ..

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Chapter 5, Problem 43P

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Chapter 5, Problem 42P

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Newton's Third Law of Motion: Action and Reaction; Author: Professor Dave explains;https://www.youtube.com/watch?v=y61_VPKH2B4;License: Standard YouTube License, CC-BY

The speed of the second block.

Solution Summary: The author calculates the speed of the second block using Newton's second law of motion. The velocity is given as v=sqrt2aDelta x

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Chapter 5 Solutions