liquid rushes faster at the bottom hole than tops because pressure in liquids is directly proportional to the height of the liquid.that is the deeper the liquid the higher the pressure
This question does not provide enough information on the relevant parameters to even attempt an answer. One would assume that if the hole is at the bottom of the container (and not on the side at the bottom) and the liquid is coming out of the hole only due to gravity that the the container would remain stationary. If there is internal pressure in the container, then the initial pressure becomes important as does the time since the water began to flow. If the hole is on the side of the container, then friction between the container and the surface it is resting on become significant. If the container is not circular in cross section, then the location of the hole along the side helps determine whether the container moves laterally or spins.
No they do not. All matter in a black hole is crushed into a single point called a singularity. A point does not have any dimensions so there is no bottom. Or even a top for that matter.
By measuring it's gravity. The faster things are orbiting the black hole, the more gravity and the more mass it has.
If you only put one hole, the liquid can flow out, but air cannot flow in to replace it, so the liquid soon stops running because it's filled up the hole totally. You have to replace the lost space with air to keep it running, so you need a second hole.
its the hole in the bottom of the skull that allows the spinal cord to reach the brain.
because most of the the pressured air rushes out of the hole
Assuming you do not refer to the hole at the top and bottom but are referring to a third hole somewhere above the liquid line then the reason is this; By sucking on the top of the straw which is in a liquid, you create a vacuum above the liquid line which draws the liquid to replace the vacuum. If a hole appears somewhere above the liquid line then air is drawn limiting the vacuum and thus the liquid cannot be drawn through the straw.
because liquid exerts more pressure more at the bottom tan at the top
theres a hole in the bottom of the sea theres a hole in the bottom of the sea theres a hole theres a hole theres a hole in the bottom of the sea
The water pressure increases with depth, thus water comes in faster through a hole the deeper it is.
A is the first two holes on the top covered and the bottom hole covered. B is the first hole on the top and on the bottom. C is the second hole ( not the first hole ) and the bottom hole.
What's the formula to calculate bottom hole pressure
It's not needed actually, it just helps the overall flow. One hole is for getting the liquid out, the other lets air inside the can to help it flow faster.
This question does not provide enough information on the relevant parameters to even attempt an answer. One would assume that if the hole is at the bottom of the container (and not on the side at the bottom) and the liquid is coming out of the hole only due to gravity that the the container would remain stationary. If there is internal pressure in the container, then the initial pressure becomes important as does the time since the water began to flow. If the hole is on the side of the container, then friction between the container and the surface it is resting on become significant. If the container is not circular in cross section, then the location of the hole along the side helps determine whether the container moves laterally or spins.
It breaks a hole and water rushes inand pushing air out forsing it dow.
there should be two hole near the bottom of dipstick if the oil is at the top of the second hole from the bottom its full if its at the bottom hole its a quart low
If by "bottom hole" you mean the round hole at the end, then no. Most of the sound of a flute comes out near where the mouthpiece is