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Momentum = mass * velocity = force * time
Kinetic Energy = 1/2 * mass * velocity squared
Since the mass of your object is not likely changing, it is the velocity which is changing. Therefore, your new velocity is 1.5 times your initial velocity. In the kinetic energy equation, velocity is squared. 1.5 squared = 2.25, and since nothing else is changing, your kinetic energy is now 2.25 times initial. This is an increase of 125%.
What else can I help you with?
What would happen if you double velocity?
If you double the velocity of an object, its kinetic energy would increase by a factor of four because kinetic energy is directly proportional to the square of velocity. The object would also cover twice the distance in the same amount of time due to the increased speed.
Which would have greater effect on kinetic energy of an object doubling the mass or doubling the velocity?
Doubling the velocity would have a greater effect on the kinetic energy of an object. The kinetic energy of an object is directly proportional to the square of its velocity, while it is only linearly proportional to its mass. Therefore, increasing the velocity has a more significant impact on the kinetic energy.
Which would have greater effect on kinetic energy of an object - doubling the mass or doubling the velocity?
Doubling mass affects kinetic energy in that the greater the mass, the greater the kinetic energy. OK, but if you have a 10kg mass traveling at 2m/s and it bumps into and sticks to a 10g mass, the resultant speed would be 1m/s. The momentum stays the same. KE before is 10*2*2/2= 20, while the KE after is 20*1*1/2= 10. So it is not that the above answer is wrong, but rather, you question is not clear.
What would cause the greatest increase in an object's kinetic energy?
Increasing the object's velocity would cause the greatest increase in its kinetic energy. This is because kinetic energy is directly proportional to the square of the object's velocity.
What is the highest kinetic energy?
The highest kinetic energy is typically observed in objects with large mass and high velocity. In a given scenario, an object with the highest velocity would have the highest kinetic energy.
What would happen if you double velocity?
If you double the velocity of an object, its kinetic energy would increase by a factor of four because kinetic energy is directly proportional to the square of velocity. The object would also cover twice the distance in the same amount of time due to the increased speed.
Which would have greater effect on kinetic energy of an object doubling the mass or doubling the velocity?
Doubling the velocity would have a greater effect on the kinetic energy of an object. The kinetic energy of an object is directly proportional to the square of its velocity, while it is only linearly proportional to its mass. Therefore, increasing the velocity has a more significant impact on the kinetic energy.
Which would have greater effect on kinetic energy of an object - doubling the mass or doubling the velocity?
Doubling mass affects kinetic energy in that the greater the mass, the greater the kinetic energy. OK, but if you have a 10kg mass traveling at 2m/s and it bumps into and sticks to a 10g mass, the resultant speed would be 1m/s. The momentum stays the same. KE before is 10*2*2/2= 20, while the KE after is 20*1*1/2= 10. So it is not that the above answer is wrong, but rather, you question is not clear.
What would cause the greatest increase in an object's kinetic energy?
Increasing the object's velocity would cause the greatest increase in its kinetic energy. This is because kinetic energy is directly proportional to the square of the object's velocity.
What is the greatest of kinetic energy?
Kinetic energy is defined as 1/2mass times velocity^2 so either mass or velocity. Since velocity is squared it would be the main contributor. Ot sinply put because kinetic energy is the "energy of motion" velocity or speed would be the greatest contributor.
What is the highest kinetic energy?
The highest kinetic energy is typically observed in objects with large mass and high velocity. In a given scenario, an object with the highest velocity would have the highest kinetic energy.
What has the greatest amount of kinetic energy?
Kinetic energy = one-half the product of an object's massand the square of its speed.So, the object with the greatest product of (mass) x (speed)2 has the greatest kinetic energy.
What If you have four balls all traveling at 5 meters per second which one has the most kinetic energy?
All four balls would have the same kinetic energy since kinetic energy is determined by both the mass and velocity of the object. If all four balls have the same mass and velocity, their kinetic energy would be equal.
How do you find kinetic energy if no final velocity is given?
You can calculate kinetic energy using the formula KE = 0.5 * m * v^2, where m is the mass of the object and v is its velocity. If the final velocity is not given, you would need more information or assumptions to solve for kinetic energy.
How do you solve the time by the given of mass and kinetic energy?
Kinetic energy is equal to one-half of the product of an object's mass and the square of its velocity. Velocity is change in displacement divided by time. If you have the kinetic energy and mass, you can calculate the velocity by taking the square root of the quotient of kinetic energy and mass, and thereby solving for the velocity.
What is the final velocity of an object that decreases in kinetic energy and increases in potential energy?
The final velocity of the object would be less than its initial velocity, as some of the kinetic energy has been converted to potential energy. The exact final velocity would depend on the specific amounts of energy involved and the characteristics of the system.
What happens to velocity if you double kinetic energy?
The square of 2 is 4. So, if the velocity doubles, the energy increases by a factor of 4.The square of 2 is 4. So, if the velocity doubles, the energy increases by a factor of 4.The square of 2 is 4. So, if the velocity doubles, the energy increases by a factor of 4.The square of 2 is 4. So, if the velocity doubles, the energy increases by a factor of 4.
