The pressure of liquid also called hydrostatic pressure is the force that a liquid can exert on things.

Liquid pressure = weight density × depth

Next, we show you how we got this formula using some basic math.

Consider the container you see below that contains a liquid.

pressure =

force
area

It is the weight of the liquid above that exerts some pressure on the base or bottom of the container, so the formula becomes

pressure =

weight
area

we saw in the lesson about density that

weight density =

weight
volume

If 25 =

100
4

then, 100 = 25 × 4
Similarly,

weight density =

weight
volume

then, weight = weight density × volume
weight = weight density × volume

volume = area × height

weight = weight density × area × height

Replace the weight with weight density × area × height in the formula for pressure above.

pressure =

weight density × area × height
area

Whenever you see the same thing on top and at the bottom, it gets cancelled. As a result, the area shown in bold will cancel.

pressure =

weight density × **area** × height
**area**

It is common to use the word depth instead of height when talking about pressure.

Again, Liquid pressure = weight density × depth

Why does the pressure depend on the weight density? The denser a liquid is, the heavier the liquid is, so the more pressure it will exert.

For example, mercury is more dense than water and it is heavier. It will as a result exert more pressure. Don't believe me? Just measure the weight of the same amount of mercury and water.

Why does the pressure depend on the depth? The deeper you are, the more water are above you and the more water are pressing on your body, so the pressure will be more.

The pressure of liquid does not depend on weight. To show this, we will use formula for pressure.

pressure =

weight
area

The tube on the right is 4 times as large as the tube on the left.

Let w = weight of the liquid inside the tube on the left and W = weight of the liquid inside the tube on the right.

W = 4 × wLet a = area where the pressure is applied to the bottom of the tube on the left

Let A = area where the pressure is applied to the bottom of the tube on the right.

A = 4 × a
liquid pressure of the left tube =

w
a

liquid pressure of the right tube =

W
A

liquid pressure of the right tube =

4 × w
4 × a

Since 4 is on top and at the bottom, it will cancel. As you see, the pressure is still the same

liquid pressure of the right tube =

w
a

This makes sense since if you are swimming at the same height in a big lake or in a swimming pool, the pressure is still the same.

Do see why shape does not matter? Check this page about Pascal's vases. You will notice that the water is at the same level in each vase regardless of the shape. It is so because the pressure is equal at the bottom of each vase. If the pressures were not equal, water will flow.

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