SOLUTION: The kinetic Energy (K) of a moving object varies jointly with its mass (m) and the square of its velocity (v). If an object weighing 90 kilograms and moving with a velocity of 20 m

Algebra.Com
Question 263223: The kinetic Energy (K) of a moving object varies jointly with its mass (m) and the square of its velocity (v). If an object weighing 90 kilograms and moving with a velocity of 20 meters per second has a kinetic energy of 4500 Joules, find its kinetic energy when the velocity is 32 meters per second.
Answer by ankor@dixie-net.com(22740)   (Show Source): You can put this solution on YOUR website!
The kinetic Energy (K) of a moving object varies jointly with its mass (m) and the square of its velocity (v).
If an object weighing 90 kilograms and moving with a velocity of 20 meters per second has a kinetic energy of 4500 Joules, find its kinetic energy when the velocity is 32 meters per second.
:
The mass is the same in both cases so can't we just:
=
400x = 4608000
x =
x = 11,520 joules
RELATED QUESTIONS

The Kinetic energy K or a moving object varies jointly with its mass m and the square of... (answered by solver91311,richard1234)
The kinetic energy K of a moving object varies jointly with its mass m and the square of... (answered by ikleyn)
The kinetic energy K of a moving object varies directly with its mass m and the square of (answered by ikleyn)
This is what I have so far - K=kmv^2 4500=k(90)(20)^2=36000/4500=8. I'm not sure if... (answered by Alan3354,richwmiller,solver91311)
The kinetic energy E of a moving object is jointly proportional to the object’s mass m (answered by MathLover1)
The energy of an object has by its motion is given by the following equation: E=1/2MV^2, (answered by Earlsdon)
the kinetic energy of a moving body is directly proportional to its mass and the square... (answered by ikleyn)
If an object is moving at 3.0 m/s and its mass is 6.0 kg, what is its kinetic... (answered by jim_thompson5910)
Hello tutor,, I don't understand this math word problem and I was wondering if you could... (answered by ikleyn)