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Use this formula:

Final momentum = (initial momentum) + (change in momentum)

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11y ago

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How do you find magnitude of initial momentum?

INITIAL MOMENTUM = FINAL MOMENTUM ∑M1V1 + M2V2 +… + MnVn = ∑ M1V1 + M1V1 +… + MnVn + or momentum=mass x acceleration unit for momentum=kg x m/sec its confusing...


What is the magnitude of the impulse of the collision?

The magnitude of the impulse of a collision is equal to the change in momentum of the object or objects involved. It is calculated by taking the difference between the final momentum and the initial momentum of the system. The impulse can be determined using the impulse-momentum theorem, which states that the impulse is equal to the change in momentum.


How to find the change in momentum of an object?

To find the change in momentum of an object, you can subtract the initial momentum from the final momentum. Momentum is calculated by multiplying the mass of the object by its velocity. So, the change in momentum is the final momentum minus the initial momentum.


How can one determine the change in momentum of an object using the keyword "how to find change in momentum"?

To find the change in momentum of an object, you can use the formula: Change in Momentum Final Momentum - Initial Momentum. This involves subtracting the initial momentum of the object from its final momentum to determine how much the momentum has changed.


How to calculate the change in momentum in a given scenario?

To calculate the change in momentum in a scenario, you can use the formula: Change in momentum final momentum - initial momentum. Momentum is calculated by multiplying an object's mass by its velocity. So, to find the change in momentum, subtract the initial momentum from the final momentum.


What is the final velocity of an object when using the momentum formula?

The final velocity of an object can be calculated using the momentum formula, which is: momentum mass x velocity. To find the final velocity, rearrange the formula to solve for velocity: velocity momentum / mass.


What are some common 2D momentum problems and what are the solutions to these problems?

Common 2D momentum problems involve objects colliding or moving in different directions. To solve these problems, you can use the principles of conservation of momentum and apply vector addition to find the final velocities of the objects. It is important to consider the direction and magnitude of the momentum vectors to accurately solve these problems.


How to find the magnitude of impulse in a given scenario?

To find the magnitude of impulse in a given scenario, you can multiply the force applied to an object by the time period over which the force is applied. This will give you the change in momentum of the object, which is equal to the impulse. The magnitude of impulse is a measure of how much the object's momentum changes due to the force applied to it.


What is magnitude of their initial momentum?

The magnitude of their initial momentum depends on the mass and velocity of the objects in question. It is calculated as the product of mass and velocity.


A spaceship has a momentum of 20 000 kg-ms to the left and a mass of 500 kg What is the magnitude of its velocity?

momentum = mass x velocity, so velocity is momentum/mass. If the question asks for the magnitude then it's probably the absolute magnitude rather than a directional value (which would be negative as the space ship is heading to the left.


If a bicycle has a mass of 10 kg and velocity of 11 ms to the west what is the magnitude of its momentum?

The magnitude of momentum is calculated as the product of an object's mass and velocity. In this case, the magnitude of the bicycle's momentum would be 110 kg*m/s to the west.


How can one determine the final velocity of an object using the concept of momentum?

To determine the final velocity of an object using the concept of momentum, you can use the equation: momentum mass x velocity. By calculating the initial momentum and final momentum of the object, you can then solve for the final velocity using the formula: final velocity final momentum / mass.