Kinetic energy is given by 1/2 M x V2, that is one half mass x velocity squared
The potential energy of a bus typically changes into kinetic energy for the bus to move. When the bus starts moving, the stored potential energy is converted into the energy of motion, resulting in the bus's kinetic energy.
Yes. The person has a mass m and has the same velocity as the bus v, so has a kinetic energy E, where E = 1/2 * m *v^2 Obvioulsy, it all depends on your frame of reference, since this kinetic energy is due to the velocity of the person relative to the road due to the bus moving on that road at velocity v.
gas
Velocity depends on the point of view, or as they say in physics, on the "frame of reference". The amount of kinetic energy depends on velocity, and therefore, it also depends on the frame of reference.From the point of view of someone else who is also standing in the bus, such as person would have zero velocity and zero kinetic energy. From the point of view of one who watches the bus from the outside (standing still, near the road for example), the velocity, and therefore also the kinetic energy, of the person being considered will be non-zero.
1 yes when electron moving in a shell 2 aeroplanes when moving in skies 3 when we are travelling in a bus or car
When the bus is going to start it turns into Kinetic energy remember that Kinetic energy is the energy of movements
When the bus is going to start it turns into Kinetic energy remember that Kinetic energy is the energy of movements
When the bus starts moving its potential energy will change to kinetic energy.
The potential energy of a bus typically changes into kinetic energy for the bus to move. When the bus starts moving, the stored potential energy is converted into the energy of motion, resulting in the bus's kinetic energy.
: the engine changes chemical energy into light and kinetic energy to power the car? Write your answer...
Ultimately energy from the Sun in the form of fossil chemical energy. If the bus is at the top of a hill it also has potential energy and if it is moving it has kinetic energy - bot of these are still Sunlight energy.
Yes. The person has a mass m and has the same velocity as the bus v, so has a kinetic energy E, where E = 1/2 * m *v^2 Obvioulsy, it all depends on your frame of reference, since this kinetic energy is due to the velocity of the person relative to the road due to the bus moving on that road at velocity v.
Probably a bus because it has a greater mass. But its kinetic energy will be greater once acceleration is achieved.
gas
Velocity depends on the point of view, or as they say in physics, on the "frame of reference". The amount of kinetic energy depends on velocity, and therefore, it also depends on the frame of reference.From the point of view of someone else who is also standing in the bus, such as person would have zero velocity and zero kinetic energy. From the point of view of one who watches the bus from the outside (standing still, near the road for example), the velocity, and therefore also the kinetic energy, of the person being considered will be non-zero.
Velocity depends on the point of view, or as they say in physics, on the "frame of reference". The amount of kinetic energy depends on velocity, and therefore, it also depends on the frame of reference.From the point of view of someone else who is also standing in the bus, such as person would have zero velocity and zero kinetic energy. From the point of view of one who watches the bus from the outside (standing still, near the road for example), the velocity, and therefore also the kinetic energy, of the person being considered will be non-zero.
The engender is the power of the bus