Either by increasing the mass of the body or its velocity.
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.
Increased its velocity. By not changing its mass (inertia) and increasing its momentum, the only variable left to change is velocity in the equation momentum = mass x 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.
Momentum is increased by either increasing an object's mass or its velocity. This can be achieved by applying a force to the object for a certain amount of time, allowing it to accelerate and gain momentum. Momentum is a vector quantity that depends on both mass and velocity, so changing one or both of these factors will affect an object's momentum.
If the size of the particle is increased while keeping its momentum constant, the speed of the particle will decrease. This is because as the size increases, the same momentum is distributed over a larger mass, resulting in a lower velocity.
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.
momentum of a body can be increased either by increasing velocity or by mass.since momentum = mass * velocity.
Increased its velocity. By not changing its mass (inertia) and increasing its momentum, the only variable left to change is velocity in the equation momentum = mass x 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.
Momentum is increased by either increasing an object's mass or its velocity. This can be achieved by applying a force to the object for a certain amount of time, allowing it to accelerate and gain momentum. Momentum is a vector quantity that depends on both mass and velocity, so changing one or both of these factors will affect an object's momentum.
If the size of the particle is increased while keeping its momentum constant, the speed of the particle will decrease. This is because as the size increases, the same momentum is distributed over a larger mass, resulting in a lower velocity.
A car has higher momentum when traveling faster because momentum is the product of an object's mass and velocity. When a car is moving at a faster speed, it has a higher velocity, resulting in a greater momentum due to the increased product of mass and velocity.
Kinetic energy is proportional to the square of the speed; use this fact to calculate the increase in speed (60% increase means an increase by a factor of 1.6). Momentum is proportional to the speed.
momentum As the speed of a rolling ball is increasing, the increasing speed is accompanied by: a. increasing momentum.
If the mass of an object increases, its momentum also increases. Momentum is directly proportional to mass, so an increase in mass will result in a proportional increase in momentum, given that the velocity remains constant.
In physics, the momentum of an object is the amount of energy it has moving in a direction. It is a product of its mass (weight) and its velocity (speed and direction) as in (momentum = Mass times velocity). Momentum changes when speed is increased or decreased, its direction changes, or its mass changes. An example of changing momentum is an object in space such as a meteor falling to the earth. Gravity can make it come down faster increasing its momentum. Atmospheric friction heats up the object causing some of it to burn away reducing its mass and decreasing its momentum. Another example of momentum is a snowball rolling down a snow covered mountain. Gravity pulling it down increases it speed (velocity) and momentum. Rolling down in snow, it accumulates snow, gets larger, increasing in weight (mass) and momentum.
The velocity of the object will decrease proportionally to its increased mass in order to maintain its momentum of 10 kgm/s. The velocity will be halved, as the momentum needs to stay constant even when the mass doubles.