
(a)
The expression for the two forces in unit vector notation.
(a)

Answer to Problem 45AP
The expression for the first force in unit vector notation is
Explanation of Solution
The mass of an object is
Write the formula to calculate the expression for the first force in unit vector notation is
Here,
Write the formula to calculate the expression for the second force in unit vector notation
Here,
Conclusion:
Substitute
Substitute
Therefore, the expression for the first force in unit vector notation is
(b)
The total force exerted on the object.
(b)

Answer to Problem 45AP
The total force exerted on the object is
Explanation of Solution
Write the formula to calculate the total force exerted on the object
Here,
Conclusion:
Substitute
Therefore, the total force exerted on the object is
(c)
The acceleration on the object.
(c)

Answer to Problem 45AP
The acceleration on the object is
Explanation of Solution
Write the formula to calculate the acceleration of the object
Here,
Conclusion:
Substitute
Therefore, the acceleration on the object is
(d)
The velocity on the object.
(d)

Answer to Problem 45AP
The velocity on the object is
Explanation of Solution
Write the formula to calculate the velocity of the object at
Here,
Conclusion:
Substitute
Therefore, the velocity on the object is
(e)
The position on the object.
(e)

Answer to Problem 45AP
The position on the object is
Explanation of Solution
Write the formula to calculate the position of the object
Here,
Substitute
Conclusion:
Therefore, the position on the object is
(f)
The kinetic energy of the object from the formula
(f)

Answer to Problem 45AP
The kinetic energy of the object from the formula
Explanation of Solution
Write the formula to calculate the magnitude of the final velocity of the object
Here,
Substitute
Write the formula to calculate the kinetic energy of the object
Conclusion:
Substitute
Therefore, the kinetic energy of the object from the formula
(g)
The kinetic energy of the object from the formula
(g)

Answer to Problem 45AP
The kinetic energy of the object from the formula
Explanation of Solution
Write the formula to calculate the magnitude of the initial velocity of the object
Here,
Substitute
Write the formula to calculate the final kinetic energy of the object
Conclusion:
Substitute
Therefore, the kinetic energy of the object from the formula
(h)
The conclusion by comparing the answer of part (f) and (g).
(h)

Explanation of Solution
Newton gave the law for the constant acceleration motion while the work energy theorem relates the work done by the object to its energy.
In part (f) the kinetic energy of the object is calculated with the help of Newton’s law while the kinetic energy in part (g) is calculated by the work energy theorem. Since in both the parts the kinetic energy of the object comes out to be same that conclude both the law and theorem are relevant to each other. The work energy theorem is consistent with the Newton’s law.
Conclusion:
Therefore, the work energy theorem is consistent with the Newton’s law of equation.
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Chapter 7 Solutions
PHYSICS:F/SCI.+ENGRS.,V.1
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