Mass is the quantity which shows the direct MEASUREMENT of the component of a body(substance) without the necessary consideration of the motional status of the body while mommentum mathematically,is the product of mass and velocity,It is affected by the motional status of the body.hence,MOMENTUM is INERTIA
or by feb.....We say the truck has more momentum than the car. By momentum, we mean inertia in motion, or more specially ,the mass of an object multiplied by its velocity.
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.
Inertia: the property of matter that resists changes in motion.
This is Newton's First Law of Motion. Objects in motion stay in motion because of inertia (refer to the law of inertia for additional help).
Newtons First Law of Motion states that an object with a given momentum will continue to posses that same momentum until the object is acted on by a force in which case it will undergo a change in momentum. Inertia is a measure of an objects tendency to resist a change in momentum. Massive bodies have a large inertia. If a massive body is in motion its momentum is given by the product of the mass and the velocity of that body. Newtons first law says that if a force acts on this body its momentum will change. But since the body has a large inertia this change is small. For example, if a small space pebble collides with a large asteroid that has a constant velocity and thus constant momentum, the force is small relative to the inertia of the asteroid so the momentum only changes a little bit.
Momentum, specifically linear momentum, defined as:p = mvwhere p=momentum, m=mass and v=velocityis a vector quantity that describes an objects motion in a given frame.Inertia, or the Principle of Inertia, is an object's resistance to a change in velocity. It is pretty much summed up by Newton's First Law of motion, an object at rest/ in motion will continue at rest/ in motion unless acted upon by an outside force.Momentum and Inertia are related conceptually in the way that any object with mass has momentum, if its velocity is zero than its momentum is zero, and inertia is that objects resistance to a change in its velocity.
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.
Inertia: the property of matter that resists changes in motion.
Momentum and inertia are actually different, inertia is the tendency a body has to maintain a state of rest or uniform motion until acted upon by a external force momentum would be a impelling force or strength.
This is Newton's First Law of Motion. Objects in motion stay in motion because of inertia (refer to the law of inertia for additional help).
Newtons First Law of Motion states that an object with a given momentum will continue to posses that same momentum until the object is acted on by a force in which case it will undergo a change in momentum. Inertia is a measure of an objects tendency to resist a change in momentum. Massive bodies have a large inertia. If a massive body is in motion its momentum is given by the product of the mass and the velocity of that body. Newtons first law says that if a force acts on this body its momentum will change. But since the body has a large inertia this change is small. For example, if a small space pebble collides with a large asteroid that has a constant velocity and thus constant momentum, the force is small relative to the inertia of the asteroid so the momentum only changes a little bit.
Momentum, specifically linear momentum, defined as:p = mvwhere p=momentum, m=mass and v=velocityis a vector quantity that describes an objects motion in a given frame.Inertia, or the Principle of Inertia, is an object's resistance to a change in velocity. It is pretty much summed up by Newton's First Law of motion, an object at rest/ in motion will continue at rest/ in motion unless acted upon by an outside force.Momentum and Inertia are related conceptually in the way that any object with mass has momentum, if its velocity is zero than its momentum is zero, and inertia is that objects resistance to a change in its velocity.
skateboard.....if velocity is zero,then momentum is also zero.
It has a non-zero momentum. It also has non-zero kinetic energy.
Inertia is the tendency for an object in motion to stay in motion. What you are referring to is momentum which is affected by mass and velocity.
momentum is product of moment of inertia and angular velocity. There is always a 90 degree phase difference between velocity and acceleration vector in circular motion therefore angular momentum and acceleration can never be parallel
Inertia is dependent on the mass of the object being considered, and sometimes by its momentum - depending on how we are using the term. Recall that inertia is the resistance of a body to a change in motion. (A body at rest tends to remain at rest unless acted on by an outside force. And, a body in motion tends to remain in motion unless acted on by an outside force.) We think of something massive as resistive to being moved. That's inertia. But it's not moving. If that same massive body is rolling, it will have a lot of momentum, and it will take a great deal of force to slow and stop it. In the first case, the object has no velocity, and will have no momentum. In the second case, it's moving, and it will have momentum.
'mass' is normally considered as providing a bodies inertia in mainstream physics text books. In fact it is better considered as momentum, because all the particles of a body of mass are constituted by 'spin' energy, which is the energy of motion. Consider a gyroscope. At rest it's inertia is dictated by it's 'mass'. When spinning it has significantly higher inertia. Ergo, motion of matter (thus momentum) increases inertia.