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April does 1800 J of work to get a canoe moving from rest. April and the canoe have a mass of 70 kg. a. What is the kinetic energy of April and the canoe after she does the work?
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April does 1800 J of work to get a canoe moving from rest. April and the canoe have a mass of 70 kg. a. What is the kinetic energy of April and the canoe after she does the work?

User Skippy Fastol
by
6.6k points

2 Answers

3 votes

E = (1/2)mv²

1800 = (1/2)(70)v²

Solving for v²

1800(2)/70 = v²

v² = 55.714

√v² = √55.714

v = ~7.46 m/s

User UnkwnTech
by
7.2k points
3 votes

Answer:

Kinetic energy = 1800 J

Step-by-step explanation:

As per work energy theorem we know that the total work done on the system is always equal to the change in kinetic energy of the system

So we can say it as


W_(net) = KE_f - KE_i

here we can say that initially it starts from the rest state so the initial kinetic energy is given as


KE_i = 0

now from above equation we can say


W_(net) = KE_f - 0

so final kinetic energy must be equal to net work done on it

kinetic energy = 1800 J

User Tomas Jansson
by
6.3k points
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