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In an isolated system bicycle 1 and 2 each with the mass of 30 kg collide bike 1 was moving to the right at 2 ms while bike 2 was moving to the left at 4 ms what is the magnitude of their momentum?
Wiki User
∙ 13y ago
60 Kg-m/s
Wiki User
∙ 13y ago
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In an isolated system Bicycle 1 and Bicycle 2 each with a mass of 30 kg collide Bicycle 1 was moving to the right at 2 m' s while Bicycle 2 was moving to the left at 4 m's What is the magnitude o?
30 kg-m/s
Damage is more when two bodies collide from opposite directions than when they collide at any other angle.Is it due to the momentum of the objects or their relative velocities?
It is due to the momentum of the two bodies.
When two bodies collide do they apply same force on each other?
As the bodies experience same magnitude of impulse so force is same on both bodies.
What would happen if a cyclone and a tornado collide?
A tornado and a cyclone cannot collide as they work on entirely different orders of magnitude. A cyclone is is its own large-scale self-sustaining weather system. A tornado is a small-scale vortex that is part of a parent thunderstorm, which is itself usually part of a larger storm system. Most tornadoes form from storms that develop along the fronts connected to a mid-latitude cyclone, and some are produced in theouter storm bands of tropical cyclones. When two cyclones collide, they merge into one.
What do you call a chain of volcanos that result from oceans colliding?
Oceans do not collide but oceanic crustal plates can collide, and when they do collide, island arcs are formed along the subduction zone.
In an isolated system Bicycle 1 and Bicycle 2 each with a mass of 10 kg collide. Bicycle 1 was moving to the right at 5 ms while Bicycle 2 was moving to the left at 3 ms. What is the magnitude o?
20 kg-m/s
In an isolated system Bicycle 1 and Bicycle 2 each with a mass of 10 kg collide Bicycle 1 was moving to the right at 5 ms while Bicycle 2 was moving to the left at 3 ms What is the magnitude o their?
Might be 20 kg-m/s
In an isolated system Bicycle 1 and Bicycle 2 each with a mass of 30 kg collide Bicycle 1 was moving to the right at 2 m' s while Bicycle 2 was moving to the left at 4 m's What is the magnitude o?
30 kg-m/s
In an isolated system two cars each with a mass of 1000 kg collide Car 1 is initially at rest while Car 2 was moving at 10 ms What is the magnitude of their combined momentum at the collision?
10,000
How is momentum conserved after two object collide?
From Newton's third law, when two bodies A and B collide, the force that A exerts on B is equal in magnitude but opposite in direction to the force that B exerts on A. From Newton's second law, this force produces a rate of change of momentum. Both bodies are experienced to the same magnitude in change of momentum but in opposite directions. Net change in momentum is zero. This implies that momentum is conserved.
In an isolated system two cars each with a mass of 1000 kg collide. Car 1 is initially at rest while Car 2 was moving at 10 ms. What is the magnitude of their combined momentum after the collision?
10,000 kg-m/s
In an isolated system two cars each with a mass of 1000 kg collide Car 1 is initially at rest while Car 2 was moving at 10 ms What is the magnitude of their combined momentum after the collision?
10,000 kg-m/s
In an isolated system, two cars, each with a mass of 1,000 kg, collide Car 1 is initially at rest, while Car 2 was moving at 10 m/s What is the magnitude of their combined momentum after the collisi?
10,000 kg-m/s
In an isolated system two cars each with a mass of 1500 kg collide. Car 1 is initially at rest while Car 2 was moving at 5 ms. What is their combined momentum after the collision?
Law of Conservation of Momentum: The total momentum after the collision is equal to the total momentum before the collission.
What is the force when to objects collide?
momentum
When two cueballs collide what happens to the momentum?
Nothing. Momentum is a conserved quantity.
When 2 balls collide the momentum of the balls after the collision is explained by?
Conservation of momentum.
