if u let them go at the same time, both would hit at the same time, but if u throw them with say ur arms, the Bowling ball because it goes less distance, the bowling ball will fall after about 2 feet, but the Golf ball will sail a while WRONG In a vacuum, where there is a lack of air resistance, they should hit the ground at the same time. Based on the question, the bowling ball will hit the ground first.
Every item in free fall on earth has an acceleration due to gravity of 10 meters per second squared, so they would hit the ground at the same time.
------------------------------
Assuming we're not dropping the balls in a vacuum, gravity on earth (10m per second squared or 10m/s2) is forced to contend with aerodynamics and air resistance. So, in the real world, in this case in my office in the Southern hemisphere, dropping the tennis ball and the ping-pong ball simultaneously from, say, the ceiling above my desk means that while the law of gravity commands they fall together at 10m/s2 and hit the desk at the same time, air movement in the room and the physical properties of the two balls will result in greater air resistance keeping the ping-pong ball otherwise occupied and causing the tennis ball to land on my desk first. If we drop the balls from the top of a tree outside my sunny windows, assuming no obstructions, greater air movement and warmer air inside the ping-pong ball will cause it to take the scenic route downwards, while the heavier and better-insulated tennis ball will travel more directly towards the ground.
The question doesn't specify conditions in which the two balls are dropped - indoors, outdoors, in a vacuum, and so on - so the answer here assumes the environment in which the person (me) answering the question is situated. Given more specifics with respect to physical conditions present when and where the ping-pong ball and the tennis ball are dropped, the answer will necessarily be different.
------------------------------
No, a thrown ball will hit first. Because since you throw it down you are giving more force to it than just gravity. A dropped ball is just being pulled down by gravity
<><><>
Depends. In what direction did you throw the ball?
-- If they're all dropped at the same time, from the same height, in a vacuum,
then they'll all hit the ground at exactly the same instant of time.
-- If they're dropped at different times, in a vacuum, then the one dropped first
will hit the ground first.
-- If they're dropped from different heights, in a vacuum, then the one dropped
from the least height will hit the ground first.
-- If they're dropped in air rather than in a vacuum, then the pingpong ball is
slowed the most by air resistance, the Baseball next, and the bowling ball is
slowed the least by air resistance.
You have not defined the parameters of your problem. Ping pong balls never hit the ground, they hit the ping pong table. Even if they miss the ping pong table, they hit the floor, rather than the ground. That's because ping pong is played indoors. Of course, you could set up an experiment that involves a ping pong ball and a golf ball, but you have not described such an experiment.
If they were both dropped at the same time and from the same height, the more dense golf ball would land first. The tennis ball would have a lot more air resistance. In a vacuum, their landing would be simultaneous.
in a vacuum they would hit at the same time; in air the air resistance will slow down the tennis ball so the cannonball would hit first
They will both have the same speed because the will hit the ground at the same time, due to vertical velocity.
at what q from the horizontal should be threw a rock so that it has greatest range
they hit the ground at same instant
No. They both hit the ground at the same time. This is because the VERTICAL component of velocity in both cases is the same.
No. They both hit the ground at the same time, because the VERTICAL component of velocity in both cases is the same.
They would reach the ground at the same time and whoever dropped them would die of suffocation.
They will both have the same speed because the will hit the ground at the same time, due to vertical velocity.
the distance it travels before falling to the ground
They should reach the ground together, since their initial vertical speed is the same, namely zero.
at what q from the horizontal should be threw a rock so that it has greatest range
The volleyball will NOT hit the ground with greater anything. Assuming that the soccer ball is the same spherical diameter and greater mass than the volleyball it will hit the ground with greater velocity and greater impact.
If dropped from the same height, they will hit the ground at the same time.
Assuming both were dropped from the same height above ground, in a vacuum both would hit the ground at the same time. In a significant atmosphere (e.g. average ground-level on Earch) the bowling ball would hit the ground first.
a golf ball because it is has a higher weight to cross sectional area ratio. ( weight to drag ) The inverse of this is why a bean will fall faster than a feather of the same weight. Also a golf ball has divots that allow it to fly thru the air faster
they hit the ground at same instant
The thrown ball will (usually) have the highest velocity as the acceleration (resultant of force) used to throw it exceeds that of the other two balls. The ball thrown upward will have a higher downward velocity than the dropped ball even though their accelerations (due to gravity) are the same, as it has more time to travel downward. Although, If the ball thrown upward is thrown high enough, it may even travel faster than the ball thrown downward if the downward throw's force is not enough to beat the ball's terminal velocity (quite a bit of height would be required though).
No. They both hit the ground at the same time. This is because the VERTICAL component of velocity in both cases is the same.