Cabbage
An object's momentum is affected by its mass and velocity. The momentum of an object increases as either its mass or velocity increases.
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 mass and velocity of an object are two factors that affect its momentum. An object with higher mass or greater velocity will have greater momentum.
The momentum of an object is affected by its mass and velocity. Momentum is directly proportional to both mass and velocity, so an increase in either will result in an increase in momentum, and vice versa.
The two factors that determine the amount of friction on an object are the nature of the surfaces in contact and the force pressing the surfaces together. Rougher surfaces and greater force lead to higher friction. Smooth surfaces and lower force result in lower friction.
An object's momentum is affected by its mass and velocity. The momentum of an object increases as either its mass or velocity increases.
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 mass and velocity of an object are two factors that affect its momentum. An object with higher mass or greater velocity will have greater momentum.
The momentum of an object is affected by its mass and velocity. Momentum is directly proportional to both mass and velocity, so an increase in either will result in an increase in momentum, and vice versa.
The two factors that determine the amount of friction on an object are the nature of the surfaces in contact and the force pressing the surfaces together. Rougher surfaces and greater force lead to higher friction. Smooth surfaces and lower force result in lower friction.
"Amount" is one of those rubber words that can mean different things to different people. The 'amount' of matter in an object could be the object's mass, or it could be the object's volume.
You need to frame your question better. A movinng object will not change momentum unless a force acts upon it. A force could be supplied by many things including a collision, gravity, friction What evr happens, energy will be conserved. If friction through air reduces a body's momentum, then the momentum of the of the body will be transfered to momentum of the air particles (which is ultimately seen as heat, and is infact an increase in speed and hence momentum of the molecules
The two things that work depend on are force and distance.
It relates to work in the sense that work involves moving things, which involves changing their momentum, and to change momentum you have to create an equal and opposite momentum so that momentum is conserved - although the planet Earth is such a convenient momentum sink that in most cases this happens without being specifically noticed.
The momentum of a moving object is (mass of the object) multiplied by (speed of the object). Neither of those numbers is affected by where you are, whether on a planet, on a moon, or in space. Mass times speed equals momentum.
Inertia of motion is the resistance mass has to motion. It also is the resistance in change in momentum. Momentum includes two things: velocity and direction. When an object changes its velocity, the momentum of the object resists the change. Also, when an object does change its velocity, its momentum is directly changed. In general, the inertia of motion is matter's unwillingness to change velocity or momentum.
the mass of the object determines the amount of inertia in an object