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What is the property that describes an object's resistance to changing its motion is what?
The light hits its own motion to make its speed
How can you change the motion of and object?
You can change the motion of an object by applying a force to it. This force can change the object's speed, direction, or both. Additionally, changing the mass or shape of the object can also affect its motion.
How can you change the amount of momentum an object has?
You can change the amount of momentum an object has by changing its mass, velocity, or direction of motion. Increasing the object's mass or velocity will increase its momentum, while changing its direction will affect the direction of its momentum.
Why is mass the same everywhere?
Mass is the amount of matter in an object, and it remains the same regardless of location because it is an intrinsic property of the object. Mass is a measure of an object's inertia, which is the resistance to changes in motion, and it is independent of the object's location in space.
Is an object a motion?
No, although in physics, motion (which is a change of position over time, or lack of change) is a function of physical objects, which are composed of matter. The term can also be applied more loosely to indicate movement (propagation) of electromagnetic waves or radiation.
What is the property that describes an object's resistance to changing its motion is what?
The light hits its own motion to make its speed
How can you change the motion of and object?
You can change the motion of an object by applying a force to it. This force can change the object's speed, direction, or both. Additionally, changing the mass or shape of the object can also affect its motion.
How can you change the amount of momentum an object has?
You can change the amount of momentum an object has by changing its mass, velocity, or direction of motion. Increasing the object's mass or velocity will increase its momentum, while changing its direction will affect the direction of its momentum.
Why is mass the same everywhere?
Mass is the amount of matter in an object, and it remains the same regardless of location because it is an intrinsic property of the object. Mass is a measure of an object's inertia, which is the resistance to changes in motion, and it is independent of the object's location in space.
How fast an object moves in a particular drection?
Motion of something determined by its mass and velocity
Is an object a motion?
No, although in physics, motion (which is a change of position over time, or lack of change) is a function of physical objects, which are composed of matter. The term can also be applied more loosely to indicate movement (propagation) of electromagnetic waves or radiation.
What is the measurement of the motion of something equal to the product of the moving objects mass times its velocity?
Momentum
What is the measurement of the motion of something . this is equal to to the product of the moving objects mass times is velocity?
The product of an object's mass and velocity is the object's momentum.
Mass is no matter where you are in the universe?
Mass is a measure of the amount of matter in an object and remains constant regardless of its location in the universe. This is a fundamental property of matter defined by its inertia and gravitational attraction. Changing an object's location in space does not alter its mass.
Can inertia change with mass?
the greater the mass of an object, the more inertia it has, so to answer your ? yes inertia changes depending on mass :]
How mass affects by motion?
The relationship between mass and motion is given by Newton's Second Law.
What can be said of an object whose mass stays constant but its momentum is changing?
If an object's mass stays constant but its momentum is changing, then its velocity must be changing as well. This implies that there is an external force acting on the object, causing its momentum (mass multiplied by velocity) to change. This concept is described by Newton's second law of motion, which states that the rate of change of an object's momentum is equal to the force applied to it.
