Car's Kinetic Energy After Doubling Linear Momentum

In summary, the car's kinetic energy will increase to 4.00 x 10^5 J after doubling the magnitude of its linear momentum vector without changing its mass. This can be seen by applying the equation E=1/2mv^2 and understanding that doubling the momentum will quadruple the velocity, resulting in four times the original kinetic energy.
  • #1
XwakeriderX
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The kinetic energy of a car moving down a road is 1.00 x 10^5 J. The car suddenly doubles the magnitude of it's linear momentum vector without changing it's mass. What is the new value of the car's energy?
A) 9.00 x 10^5 J
B) 4.00 x 10^5 J
C) 6.00 x 10^5 J
D) 9.00 x 10^6 J
E) none of the above!

P_>=mv_>

I thought ke was a scalar and momentum was a vector. Can this problem be done?
 
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  • #2
Yes, it can be done.
Are you familiar with the trick of seeing immediately that
when E = ½mv², then
- doubling m causes E to double
- doubling v causes E to quadruple
One way to see it is to replace v with (2v) and write the 2 in red;
you see that (2v)² is 4v² so the ½mv² has changed to 4(½mv²).

That is the technique to deal with your question.
You have p = mv so v = p/m
Ask yourself how doubling p affects v.
Then how that affects KE.
 

1. What is the relationship between a car's kinetic energy and its linear momentum?

The kinetic energy of a car is directly proportional to its linear momentum. This means that as the linear momentum of the car increases, so does its kinetic energy.

2. How does doubling the linear momentum affect a car's kinetic energy?

Doubling the linear momentum of a car will also double its kinetic energy. This is because of the direct relationship between the two variables.

3. Can a car's kinetic energy be increased without changing its linear momentum?

No, the kinetic energy of a car can only be increased by increasing its linear momentum. This is because the two are directly related and one cannot change without affecting the other.

4. How does a car's speed affect its kinetic energy and linear momentum?

A car's speed plays a significant role in both its kinetic energy and linear momentum. As the speed of a car increases, both its kinetic energy and linear momentum also increase. This is because kinetic energy is directly proportional to the square of an object's speed, while linear momentum is directly proportional to its speed.

5. Can a car's kinetic energy and linear momentum be equal?

No, a car's kinetic energy and linear momentum cannot be equal. Kinetic energy is a measure of an object's ability to do work, while linear momentum is a measure of its motion. Although they are both related, they are different physical quantities and cannot be equal to each other.

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