Yes, a falling leaf has less momentum than a falling pinecone. This is because momentum is defined as the product of an object's mass and velocity, and pinecones are typically heavier and denser than leaves, causing them to have greater momentum when falling.
No, momentum = mass x velocity. Since the leaves on the ground are not moving v = 0 which means their momentum is also zero. Since the leaf falling is moving and has a mass, it will have a momentum greater than zero.
Momentum is the product of mass times velocity. With less velocity, there will be less momentum. (An object's mass will usually not change.)
When the mass decreases, and all other factors remain constant, the momentum of an object will also decrease since momentum is directly proportional to mass. This is because momentum is defined as the product of mass and velocity.
The total momentum after the collision is equal to the total momentum before the collision in accordance with the law of conservation of momentum. This means that the sum of the momentum of the more massive and less massive marbles before the collision will be equal to the sum of their momentums after the collision.
Momentum affects distance by influencing the object's ability to overcome resistance or friction and continue moving forward. An object with more momentum will typically travel further before coming to a stop compared to an object with less momentum. This is because momentum is a measure of an object's motion, and the greater the momentum, the more force it can exert over a distance.
No, momentum = mass x velocity. Since the leaves on the ground are not moving v = 0 which means their momentum is also zero. Since the leaf falling is moving and has a mass, it will have a momentum greater than zero.
If you drop a suitcase out of a moving car, the momentum of the car will decrease as there will be less mass, therefore less momentum. :)
Momentum is the product of mass times velocity. With less velocity, there will be less momentum. (An object's mass will usually not change.)
When the mass decreases, and all other factors remain constant, the momentum of an object will also decrease since momentum is directly proportional to mass. This is because momentum is defined as the product of mass and velocity.
The total momentum after the collision is equal to the total momentum before the collision in accordance with the law of conservation of momentum. This means that the sum of the momentum of the more massive and less massive marbles before the collision will be equal to the sum of their momentums after the collision.
Less than what? Please clarify.
you would have to be with less momentum better so acceleration isn't required. It would be the flux capacitor. without a doubt.
When a team has a lot of momentum, it means they are performing well and experiencing success, which can build confidence and motivation. When a team loses its momentum, it means they are facing setbacks or challenges that are hindering their performance and progress. Momentum is often used to describe the psychological and emotional state of a team in relation to their performance.
Momentum is mass x velocity, so it would also depend on each ball's velocity.
If an object has more momentum, it has either a greater mass or a greater velocity. If an object has less inertia, it has less mass. So am object with less inertia will accelerate faster than one with greater momentum because of a greater mass, assuming the same force of acceleration is applied to both. However, if the greater momentum is due to greater velocity, not enough information has been provided to answer the question.
The electron, because it has much less mass than the proton and momentum is the product of mass and speed.
yes,it is possible