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Exploring pressure in a liquid

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1 Exploring pressure in a liquid
Aseel Samaro

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4 Introduction Sea creatures and divers experience the effects of pressure as they swim in deep water. Whales have ribs that are joined by very flexible cartilage. This allows the ribcage to compress when they make a deep dive. Without this flexibility, the high pressure could break the rib cage.

5 How pressure varies? When we are on the land, the pressure inside our bodies is the same as the pressure of the air around us. However, when people go diving there is extra pressure from the water above – the greater the depth, the higher the pressure. When you are deep in the water, the pressure results from the weight of water pressing down on you from above. The water is actually pressing all around you, so the pressure is the same all over your body.

6 Pressure in liquids

7 How can a whale descend quickly and yet face no problems?
Why would you experience more pressure at the bottom of a swimming pool than at the surface? What dangers would face divers if they descended quickly to a great depth? How can a whale descend quickly and yet face no problems?

8 How can a whale descend quickly and yet face no problems?
Why would you experience more pressure at the bottom of a swimming pool than at the surface? There is more water above you pressing down What dangers would face divers if they descended quickly to a great depth? How can a whale descend quickly and yet face no problems? a) the pressure could crush their bodies and damage lungs, bones etc b) a whale’s body is flexible; the ribs are joined by very flexible cartilage; and so can be compressed without damage

9 Explaining pressure in liquids
To help explain how pressure acts in a liquid, imagine the water particles to be represented by a large container of marbles. If you press your fist down into the marbles they push against each other and some of them are forced upwards, even though you are pressing downwards. Imagine lying at the bottom of a deep swimming pool full of marbles. You would feel the weight of the marbles pressing down on you. The more marbles above you, the larger the force on your body.

10 Particles in a liquid causing pressure

11 Explain why the pressure in the previous figure is greater at position B compared to position A. How can the marbles model help us to understand pressure in liquids? What drawbacks does the marbles model have in explaining pressure in liquids?

12 How can the marbles model help us to understand pressure in liquids?
Explain why the pressure the previous figure is greater at position B compared to position A There are more particles above B compared to A How can the marbles model help us to understand pressure in liquids? The particles in a liquid behave in a similar way to the marbles; they are both closely packed, touching and cannot be compressed; when pressure is applied to either, it is transferred throughout the particles/marbles. What drawbacks does the marbles model have in explaining pressure in liquids? The marbles do not move/flow as freely as water particles; pressure is not distributed so evenly.

13 Working at pressure Humans are able to explore to great depths in the oceans using diving capsules. Inside the capsule the pressure is similar to surface pressure, so the people inside can work normally. On the outside the pressure is many times higher so the capsule has to be built to withstand it.

14 A deep-sea diving capsule with special crystal glass windows

15 For work at shallower depths you can wear a diving suit, but if you come to the surface quickly you can suffer from decompression sickness. This is caused by gases inside the body bubbling in the way that they do when a fizzy drink is opened. You must be put into a decompression chamber so that the pressure can be reduced gradually to surface pressure.

16 Suggest what features of a diving capsule enable it to withstand the very high pressure in deep oceans. Find out about what causes decompression sickness.

17 Suggest what features of a diving capsule enable it to withstand the very high pressure in deep oceans. It has thick walls of a strong material such as steel; the spherical shape has fewer weak points than other shapes; special tough, transparent material for the windows. Find out about what causes decompression sickness. More gases (especially nitrogen) dissolve in the blood when the pressure is higher; when pressure is reduced rapidly the gas comes out of solution as bubbles, as when a fizzy drink is opened; the bubbles cause pain, illness and possibly death.

18 Did you know…? There have been several manned and unmanned trips to the bottom of the deepest part of the ocean – the Mariana Trench in the Pacific Ocean. Even though the pressure is around 100 million pascals, there is a thriving ecosystem

19 Thank you


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