A 0.77 kg spike is hammered into a railroad

tie. The initial speed of the spike is equal to

3.5 m/s.

If the tie and spike together absorb 88.3

percent of the spike's initial kinetic energy

as internal energy, calculate the increase in

internal energy of the tie and spike.

Answer in units of J.

Question

Maliyah Humphrey

Physics

19 December, 13:17

A 0.77 kg spike is hammered into a railroad

tie. The initial speed of the spike is equal to

3.5 m/s.

If the tie and spike together absorb 88.3

percent of the spike's initial kinetic energy

as internal energy, calculate the increase in

internal energy of the tie and spike.

Answer in units of J.

+3

Answers (1)

Know the Answer?

Nigel · Answer 1

4.168 J

Explanation:

Applying the formula of kinetic energy,

Ek = 1/2mv² ... Equation 1

Where Ek = Kinetic energy of the spike, m = mass of the spike, v = initial velocity of the spike

Given: m = 0.77 kg, v = 3.5 m/s.

Substitute into equation 1

Ek = 1/2 (0.77) (3.5²)

Ek = 4.72 J.

From the question, if the tie and the spike together absorb, 88.3 percent of the spike's initial kinetic energy.

Ek' = 88.3/100 (4.72)

Ek' = 4.168 J

A 0.77 kg spike is hammered into a railroadtie. The initial speed of the spike is equal to3.5 m/s.If the tie and spike together absorb 88.3percent of the spike's initial kinetic energyas internal energy, calculate the increase ininternal energy of the tie and spike.Answer in units of J.