The toilet is too small a scale for water to certainly flush in one direction or the other because of the hemisphere they can, in fact, flush both ways. However hurricanes will rotate clockwise in the northern hemisphere and anit-clockwise in the southern hemisphere.
No, the water in a toilet does not spin one way in the northern hemisphere and spin the opposite direction in the southern hemisphere. The spin of the water in a toilet is determined by the shape of the toilet bowl and the flush system, not by the direction of the Earth's rotation. In a toilet, the water is flushed by a flushing mechanism. This flushing mechanism is usually activated by pushing a lever or pushing a button, and it causes water to be released from the tank into the bowl. The shape of the toilet bowl, as well as the type of flushing mechanism, determines how the water will move once it enters the bowl. When the toilet is flushed, the water quickly fills the bowl and then begins to swirl around. The force of the swirling water will cause it to push against the sides of the bowl and create a whirlpool effect. As the water circles around the bowl, the shape of the bowl determines the direction in which the water will spin. The water will usually spin in a clockwise direction in the northern hemisphere and in a counterclockwise direction in the southern hemisphere. The spin of the water in a toilet is determined by the shape of the toilet bowl and the type of flushing mechanism, not by the direction of the Earth's rotation. The shape of the bowl and the type of flush system will determine the direction in which the water will spin, regardless of which hemisphere the toilet is located in.
Surface currents in the southern hemisphere generally flow clockwise due to the Coriolis effect, which is caused by the Earth's rotation. This means that currents are deflected to the left in the southern hemisphere, resulting in a clockwise flow pattern.
In the northern hemisphere, ocean currents generally flow clockwise, while in the southern hemisphere, they flow counterclockwise. This is due to the Coriolis effect, which causes moving objects to be deflected to the right in the northern hemisphere and to the left in the southern hemisphere.
The northern hemisphere is north of the equator, and Washington DC is north of the equator, so it's in the northern hemisphere. No. The coordinates of the city are roughly 38°53' N 77°02' W which places it solidly in the Northern hemisphere (and Western hemisphere if you want to divide it that way instead), but NOT in the Southern hemisphere.
Mount St. Helens is located in the northern hemisphere. It is in the state of Washington, USA.
In the southern hemisphere, the Coriolis effect does influence the rotation of large-scale weather patterns, but it is too weak to affect the direction in which a toilet flushes. The direction a toilet flushes is primarily determined by the design of the toilet and the angle of the water jets.
AnswerUnlilke common belief, what hemisphere you live in has nothing to do with the way the toilet flushes. It spins according to how your toilet is manufactured.
It doesn't do it because it's in Mexico. It's due to the design (shape and level) of the toilet. Answer It has long been an urban legend that water flows counterclockwise in the northern hemisphere and vice versa in the southern hemisphere -- due to the Coriolis Force. However, the Coriolis Force only applies to hurricanes and cyclones.
No, the water in a toilet does not spin one way in the northern hemisphere and spin the opposite direction in the southern hemisphere. The spin of the water in a toilet is determined by the shape of the toilet bowl and the flush system, not by the direction of the Earth's rotation. In a toilet, the water is flushed by a flushing mechanism. This flushing mechanism is usually activated by pushing a lever or pushing a button, and it causes water to be released from the tank into the bowl. The shape of the toilet bowl, as well as the type of flushing mechanism, determines how the water will move once it enters the bowl. When the toilet is flushed, the water quickly fills the bowl and then begins to swirl around. The force of the swirling water will cause it to push against the sides of the bowl and create a whirlpool effect. As the water circles around the bowl, the shape of the bowl determines the direction in which the water will spin. The water will usually spin in a clockwise direction in the northern hemisphere and in a counterclockwise direction in the southern hemisphere. The spin of the water in a toilet is determined by the shape of the toilet bowl and the type of flushing mechanism, not by the direction of the Earth's rotation. The shape of the bowl and the type of flush system will determine the direction in which the water will spin, regardless of which hemisphere the toilet is located in.
depending on what side of the equator your on, if your in the northern hemisphere then it travels counterclockwise but if your in the southern H then it travels clockwise usually.
hi im on city water and toilet isn't plugged but it doesn't flush all the way like there is not enough pressure
Toilets do not turn counter clockwise in the southern hemisphere due to the Coriolis effect. The Coriolis effect influences large-scale weather patterns, such as winds and ocean currents, but it is too weak to affect the direction in which water drains in a toilet. The direction in which a toilet drains is primarily determined by the design of the bowl and the direction in which the water is initially moving.
The toilet may not flush all the way due to a clog in the pipes, a problem with the flushing mechanism, or insufficient water pressure.
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The toilet may not flush all the way due to a clog in the pipes, a problem with the flushing mechanism, or insufficient water pressure.
The first flush toilet was a way your mom ffed erself so i didnt actually flush it was just her vagina juice
Not necessarily. The direction in which toilets flush is determined by the design of the toilet and the water flow, not by the hemisphere you are in. The Coriolis effect influences large-scale systems such as hurricanes and ocean currents, but it is too weak to affect the direction of toilet flushes.