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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.
What is the magnitude of their initial momentum?
The magnitude of their initial momentum is the sum of the magnitudes of their individual momenta. It is calculated by multiplying the mass of each object by its velocity and then summing these values for all objects involved.
Spaceship 1 and spaceship 2 have equal masses of 300 kg spaceship 1 has an initial momentum magnitude magnitude of 900 kg ms what is its initial speed?
The initial speed of spaceship 1 can be calculated using the formula: momentum = mass x velocity. Thus, velocity = momentum / mass. Plugging in the values, the initial speed of spaceship 1 is 3 m/s.
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.
Spaceship 1 and Spaceship 2 have equal masses of 150 kg Spaceship 1 has an initial momentum magnitude of 900 kg ms What is its initial speed?
6m/s
How do you find magnitude of final momentum?
Use this formula:Final momentum = (initial momentum) + (change in momentum)
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.
What is the magnitude of their initial momentum?
The magnitude of their initial momentum is the sum of the magnitudes of their individual momenta. It is calculated by multiplying the mass of each object by its velocity and then summing these values for all objects involved.
Spaceship 1 and spaceship 2 have equal masses of 300 kg spaceship 1 has an initial momentum magnitude magnitude of 900 kg ms what is its initial speed?
The initial speed of spaceship 1 can be calculated using the formula: momentum = mass x velocity. Thus, velocity = momentum / mass. Plugging in the values, the initial speed of spaceship 1 is 3 m/s.
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.
Spaceship 1 and Spaceship 2 have equal masses of 150 kg Spaceship 1 has an initial momentum magnitude of 900 kg ms What is its initial speed?
6m/s
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 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.
Spaceship 1 and spaceship 2 have equal masses of 150kg spaceship 1 has an initial momentum magnitude of 900 kg ns what is its initial speed?
The initial speed of spaceship 1 can be calculated using the formula: initial momentum = mass * velocity. Therefore, the initial speed of spaceship 1 would be 6 m/s.
Space ship one and spaceship to have equal masses of 150 KG spaceship one has an Intel him moments of magnitude of 900 KG what is its initial speed?
To find the initial speed of spaceship one, we need to apply the principle of conservation of momentum. Since the two spaceships have equal masses, their momenta will be equal and opposite. The momentum of spaceship two is given by 150 kg * V2, where V2 is the initial speed of spaceship two. The momentum of spaceship one is given by 150 kg * V1, where V1 is the initial speed of spaceship one. Since they have equal magnitudes, we have 150 kg * V1 = 900 kg * (-V2). Solving for V1 gives V1 = - 6 V2. Since we want the initial speed in magnitude, the initial speed of spaceship one is 6 times the initial speed of spaceship two in magnitude.
Spaceship 1 and Spaceship 2 have equal masses of 300 kg Spaceship 1 has an initial momentum magnitude of 600 kg-mSpaceship 1 and Spaceship 2 have equal masses of 300 kg Spaceship 1 has an initial mome?
Both spaceships have the same mass and spaceship 1 has an initial momentum magnitude of 600 kg-m/s. Since momentum is conserved in an isolated system, the final momentum of spaceship 1 will still be 600 kg-m/s after any interaction.
