Joycefort
Momentum = M V = 10
V = 10/M = 10/2
= 5 meters per second
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β 14y ago4 kilograms
Momentum = (mass) x (speed) (1 x 2) = (2 x 1). Their momenta are equal.
Momentum = (mass) x (speed)Immediately, we could say the momentum is 0.25 kilogram-mile per second. That'sa perfectly good and technically correct answer, but it would be a lot neater if weconvert it into a consistent system of units ... either English or metric. If we choosemetric, then we have to convert miles-per-second into meters-per-second. No problem.1 mile = 1,609.344 meters.Momentum = (0.5 kg) x (0.5 mile/sec) x (1,609.344 meter/mile) = 402.3 kg-m/sec (rounded)That may sound like a big number, but let's not forget ... our 1.1-pound ball has beenpitched at 1,800 mph !
momentum is velocity x mass. Its mass in kilograms is 22.6N/9.8 m/s/s= 2.306kg The velocity is 6.32 miles per second which is 10112 meters per second. The momentum is 2.306 x 10112 which=23318.272 kg meters per second.
The bowling ball is harder to stop because it has a greater mass, and therefore a greater momentum. But the answer is that the bowling ball has a greater mass.
The mass of the beach ball can be calculated using the formula momentum = mass x velocity. Given momentum is 0.25 Kg per meter per second and velocity is 0.5 meter per second, you can rearrange the formula to solve for mass: mass = momentum / velocity. Therefore, the mass of the beach ball is 0.25 kg / 0.5 m/s = 0.5 kg.
4 kilograms
The impulse delivered to the wall can be calculated using the formula: impulse = change in momentum. Since the ball rebounds elastically at the same speed, the change in momentum is twice the initial momentum (2 * mass * velocity). Thus, the impulse delivered to the wall is 280 Ns.
Since momentum equals mass times velocity, the metal ball's momentum is 2N/s (Newton seconds).
momentum As the speed of a rolling ball is increasing, the increasing speed is accompanied by: a. increasing momentum.
If both balls have the same momentum, then the speed of the golf ball will be faster compared to the speed of the bowling ball. This is because the golf ball has less mass than the bowling ball, so it needs to move at a higher speed to have the same momentum.
A heavier ball traveling at a higher speed would have the most momentum. Momentum is the product of an object's mass and its velocity.
Momentum = (mass) x (speed) (1 x 2) = (2 x 1). Their momenta are equal.
this question has the theoritical answer but it is not yet practically done. according to the theortical answer """"""""yes! elephant have the same momentum as a Golf ball<<<<<<<<< Actually, elephants can have the same momentum as a golf ball. the equation for momentum is m x v2. m is mass, v is speed, and the two represents "speed squared". If the golf ball has a huge speed, then yes, it can have the same momentum as the elephant.
with out momentum the volleyball wouldn't travel, eg: when you throw the ball it carrys momentum through the air, but as soon as force isn't applyed to keep the ball traveling at the same speed, it will loose speed (momentum) and drop to the ground.
The bowling ball has more momentum because momentum is directly proportional to an object's mass and velocity. Since the two balls are moving at the same speed, the greater mass of the bowling ball results in it having more momentum.
Momentum adds speed and direction to the ball when released. Jumping adds vertical, running adds horizontal and leaping adds both horizontal and vertical motion to the ball. The ball is moving at the same speed as the ball handler. Momentum must be accounted for while shooting or the shot will be exaggerated and a miss may occur.