Both ball hit the floor at the same time. They both have the same vertical acceleration component, i.e. gravity, at work on them. Both will fall with an acceleration of approximately 9.81 m/s^2. Their horizontal speed component plays no part in bringing the balls to the floor.
Both balls will hit the floor at the same time, regardless of their speed. This is because the force of gravity acts equally on both balls, causing them to accelerate at the same rate and hit the ground simultaneously. Speed does not affect the time it takes for an object to fall in a vacuum.
When a ball rolls off a table, the time it takes to hit the ground is a function of the height of the table, not of the initial speed when it rolls off the table. So no, the time does not depend on the speed of the ball. Check out the equation that states that the time it takes an object to reach the ground equals the square root of ((2*distance dropped)/gravitational constant). A reasonable value for the gravitational constant would be 9.8 m/s^2. This is assuming that you are not worrying about resistance from the air.
If they both leave the edge of the table at the same exact time,
then they both hit the floor at the same exact time.
They don't even have to have the same mass or weight.
They have identical momentum before the collision . The total momentum will the the same before and after the collision. When the balls collide they will bounce apart both with same force and so the same momentum as originally - but in opposite directions. This assumes no energy loss in an ideal elastic collision.
The momentum of one ball will be exactly the opposite of the momentum of the other ball. The total momentum in this case will be zero.
it burst into a violent flame and leaves fine charred carbon behind
If the ball is traveling at a constant velocity of 50 m/s, then its acceleration is 0 m/s^2. Acceleration is the rate of change of velocity, so if the velocity is constant, there is no change in velocity, and therefore no acceleration.
If two balls just fall off a table, none will be faster than the other.If one of the balls initially has a horizontal speed, and the other doesn't, or if one is faster in the horizontal direction than the other, then they should reach the floor at the same time.
Then the one weighing 101 gms isn't part of the 'identical' balls.
They have identical momentum before the collision . The total momentum will the the same before and after the collision. When the balls collide they will bounce apart both with same force and so the same momentum as originally - but in opposite directions. This assumes no energy loss in an ideal elastic collision.
are you talking about human balls? YOU CANT DO IT.
balls
The momentum of one ball will be exactly the opposite of the momentum of the other ball. The total momentum in this case will be zero.
The color and shape is Identical to the average Cheetos
The probability that it contains exactly 3 balls is 6/45 = 0.133... recurring.
If the ball is traveling at a constant velocity of 50 m/s, then its acceleration is 0 m/s^2. Acceleration is the rate of change of velocity, so if the velocity is constant, there is no change in velocity, and therefore no acceleration.
Their weights are identical, namely 1 pound.
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None. The voids will not be square or triangular.
order list: 3,1,3,4,1,3,2,3,4,2,2 And you have FINALLY beat LEVEL 28!