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You hold an object; then you release it, and it falls to the ground.You hold an object; then you release it, and it falls to the ground.You hold an object; then you release it, and it falls to the ground.You hold an object; then you release it, and it falls to the ground.
They both fall at the same rate. This is because they are both only acted upon by one force in the vacuum- gravitational acceleration. The mass, size or shape of the object do not influence the object's motion in a vacuum.
The shape of an object affects the wind resistance that will press against the object, slowing it as it falls.
-- the mass of the object -- the height through which it falls
no
A steel toe shoe or boot has a piece of steel inside the tip (about 2 1/2 inches) to protect the toes from being crushed if a heavy object falls on the foot.
When an object falls down.When an object falls down.When an object falls down.When an object falls down.
The only way a wall can kill a person if it falls on them. A wall is a very heavy object and if itÕs not in a good condition and falls on a person it can kill them.
[object Object]
Safety shoes are shoes with a non-slip sole and a steel plate over the toes. The non-slip sole helps your traction on slippery or greasy and oily surfaces. The steel plate protects your toes in the event you drop a heavy object on your toes.
They occur when a heavy object falls onto a person, splitting the skin and shattering or tearing underlying structures
when an object falls is it reactin to the force of gravity?
You hold an object; then you release it, and it falls to the ground.You hold an object; then you release it, and it falls to the ground.You hold an object; then you release it, and it falls to the ground.You hold an object; then you release it, and it falls to the ground.
Corelle tablewear can survive most any fall or drop, but if a heavy object falls on it there is a chance it will break.
They both fall at the same rate. This is because they are both only acted upon by one force in the vacuum- gravitational acceleration. The mass, size or shape of the object do not influence the object's motion in a vacuum.
Here's the answer, and I love it. Let's assume that heavy objects fall fasterand light objects fall slower, just like everybody wants them to.Follow me now . . .-- Heavier objects fall faster. Lighter objects fall slower.-- Take a heavy object and a light object up to the roof of a tall building.Then take a piece of sticky tape, and stick the light object onto the backof the heavy one. Then walk carefully to the edge of the roof, and dropthe package over the side. As you do that, yell down "Look out below!"-- The heavier object normally falls faster, so it tries to pull the package ahead.The lighter object normally falls slower, so it tries to hold the package back. Soas they fight each other, the package falls at some middle speed, slower thanthe heavy object alone, and faster than the lighter object alone.-- But wait! They're taped together. How is that different from being glued together ?Or melted together ? Or welded together ? Or even inside the same skin ?-- Or even being the same single object ? They could just as well be a single object,one that weighs a little more than the original heavier object.-- But we just agreed that the package falls a little slower than the original heavier object,even though it's heavier than the original heavier object.-- Our orignal assumption . . . that a heavy object falls faster than a lght object . . . leads usdown the garden path to a ridiculous result.That assumption must be wrong.Don't ya just love it !
Nigguh toes