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The difference is the mass of the moving object: ocean liner some 10.000 to: yacht some 10 to Theory: W kin = kinetic energy m = mass v = velocity W kin = 1/2 * m * v² So the yacht would have to travel approx. 316 times faster than the ocean liner (when at 10 knots per hour) to have the same kinetic energy.
The kinetic energy of an object varies as the square of its velocity (Kinetic energy = mv2/2). So a plane with the same mass travelling at 3 times the velocity will have 9 times the kinetic energy.
Four times as farther.
Kinetic Energy is defined as the energy associated with motion. This is in contrast to potential energy which is associated with an entity's energy at rest, and it's potential for motion. Kinetic Energy can be calculated using this formula: KE = 0.5*Mass*Velocity^2, where KE = Kinetic Energy It is apparent by the formula that the same car traveling at a higher speed will have a greater kinetic energy than it does when traveling at a lower speed. Therefore, when the car travels at 50 mi/hr it has a higher kinetic energy than when it travels at 35 mi/hr. Let me just note that if we were talking about two different cars then we'd have to consider the weights of the cars.
No.IF both objects have the same mass, then the faster one has twice the momentumand four times the kinetic energy of the slower one. If their masses are different, thennothing can be calculated until we know the masses.
No, the energy of a moving car is proportional to the square of its speed. So, a car traveling at 60 mph carries four times the energy as the same car traveling at 30 mph.
The energy of three photons of blue light would be three times that of one photon of blue light from the same source. This is because the energy of a photon is directly proportional to its frequency, and blue light photons have a higher frequency than red light photons.
The kinetic energy of the vehicle when it is travelling faster is four times as great. It the brakes apply the same retardation and the friction from the tires on the road surface is unchanged then the stopping time will be four times as long.
The bicycle traveling at 15 m/s has more kinetic energy because kinetic energy is proportional to the square of the velocity. Since the mass is the same for both bicycles, the one traveling faster will have a greater kinetic energy.
Oh i have this same paper, its called Radiant energy :3
The kinetic energy of an object is proportional to the square of its velocity. Therefore, the kinetic energy of the asteroid traveling at 60 km/s will be four times greater than that of the asteroid traveling at 30 km/s.
By traveling at the same speed. Kinetic energy is a completely different story, however.
A car will need to travel 4 times as far at 100kms skid than the same car traveling at 50 kms.
this made traveling great distances be on the same or earlier times.
When each object has the same energy, energy transfer can still occur between objects. The object with the greatest mass or traveling speed will transfer the energy.
A train has more kinetic energy than a car traveling at the same speed because the train has significantly more mass. Kinetic energy is directly proportional to an object's mass - the more mass an object has, the more kinetic energy it will possess at a given speed.
X-rays and gamma rays are both forms of electromagnetic radiation, but they differ in their origin. X-rays are produced when high-speed electrons collide with a target, while gamma rays are emitted from the nucleus of an atom during radioactive decay. Both types of radiation have similar properties, such as high energy and ionizing capabilities, but they have different wavelengths and frequencies.