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A 0.60-kg particle has a speed of 2.0 m/s at point A and a kinetic energy of 7.5 J at point B. What is (a) its kinetic energy at A? (b) Its speed at point B ? (c) The total work done on the particle as it moves from A to B ?

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Hashirriaz830

Answer:

Explanation:

note:

solution is attached due to error in mathematical equation. please find the attachment

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Answer:

(a) 1.2 J

(b) 5 m/s

(c)  6.3 J

Explanation:

(a) Kinetic energy at A

Ek = 1/2mv².................. Equation 1

Where Ek = Kinetic energy at A, m = mass of the particle, v = velocity at A.

Given: m = 0.6 kg, v = 2.0 m/s

Substitute into equation 1

Ek = 1/2(0.6)(2²)

Ek = 0.6(2)

Ek = 1.2 J.

(b)

Speed at point B

Ek' = 1/2mv'²............... Equation 2

Make v' the subject of the equation,

v' = √(2Ek'/m).................. Equation 3

Where, Ek' = kinetic energy at B, v' = velocity at B.

Given: Ek' = 7.5 J, m = 0.6 kg,

Substitute into equation 3

v' = √[(2×7.5)/0.6]

v' =√(15/0.6)

v' = √25

v' = 5 m/s.

(c)

Wt =  Δ kinetic energy from A to B

Where Wt = total work done as the particle moves from A to B.

Wt = 1/2m(v'²-v²)

Wt = 1/2(0.6)(5²-2²)

Wt = 0.3(25-4)

Wt = 0.3(21)

Wt = 6.3 J