Asssuming it's not locked, broken or anything it'll move forward when you put pressure on a pedal that is pointing forward.
When a car hits a bicycle, momentum is conserved because the total momentum of the system (car + bicycle) before the collision is equal to the total momentum after the collision. This means that the combined momentum of the car and bicycle remains constant despite the collision, with some of the momentum transferring between the two objects during the impact.
The momentum of the bicycle can be calculated using the formula p = m * v, where p is momentum, m is mass, and v is velocity. Plugging in the values, the momentum of the bicycle is 45 kg*m/s.
In an isolated system, momentum is conserved. The total initial momentum is the sum of the momentum of Bicycle 1 and the momentum of Bicycle 2. Given the masses and velocities of the bicycles, you can calculate their momenta and add them together to find the total initial momentum of the system.
To increase the momentum of an object, you can either increase its mass or increase its velocity. Momentum is the product of an object's mass and its velocity, so changing either of these factors will result in a change in momentum.
The wheels of a bicycle will resist changes in their angular momentum when they are spinning, but will not when they are,
While a truck may have more mass than a bicycle, momentum is also influenced by velocity. If the bicycle is traveling at a significantly higher speed than the truck, it can have more momentum due to the combination of its mass and velocity. Momentum is calculated as mass multiplied by velocity, so a lighter object with higher velocity can have more momentum than a heavier object with lower velocity.
To increase the momentum of an object, you can either increase the object's mass or increase its velocity. Momentum is calculated as the product of mass and velocity, so changing either factor will impact the overall momentum of the object.
The magnitude of momentum is calculated as the product of an object's mass and velocity. In this case, the magnitude of the bicycle's momentum would be 110 kg*m/s to the west.
To increase the momentum of a photon, you can either increase its frequency or velocity. This can be achieved by changing the energy of the photon, as momentum is directly proportional to the energy of a photon.
If the mass stays the same but the velocity is increased, the momentum of the object will also increase. Momentum is directly proportional to velocity, so an increase in velocity will result in a proportionate increase in momentum.
An increase in velocity has a greater effect on momentum than an increase in mass. This is because momentum is directly proportional to velocity, while mass only has an indirect effect on momentum through its influence on velocity.
The momentum of a body can be increased by either increasing its mass or its velocity. Increasing the mass of the body will increase its momentum, while increasing the velocity of the body will also increase its momentum as momentum is calculated as mass times velocity.