When pressure is applied to matter, compression can result.

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Presentation transcript:

When pressure is applied to matter, compression can result. Pressure is the amount of force applied over a given area on an object. When pressure is applied to matter, compression can result. Compression is a decrease in volume produced by a force. The tennis racket applies a force to the ball. The resulting pressure causes the ball to compress. See page 290 (c) McGraw Hill Ryerson 2007

Gases Are Compressible A gas can easily be compressed because there is a large amount of space between its particles. Gas that is trapped in a container and heated will increase in pressure. Heat causes the particles to move faster. These fast moving particles bounce off the sides of the container. The increased pressure could cause the container to explode. Gas that is trapped in a container and cooled will decrease in pressure. The decreased pressure could cause the container to implode. This metal can has imploded as the gas inside is cooled. See page 291 - 292 (c) McGraw Hill Ryerson 2007

Liquids and Solids Are Very Difficult to Compress The particles of liquids and solids are already so tightly packed together that squeezing them together is almost impossible. Solids and liquids are described as incompressible. When force is applied to the bottle, the liquid does not compress. There is no room for the liquid particles to move closer together When force is applied to the bottle, the gas particles move closer together. The gas is compressed into a smaller volume. A bottle filled with liquid A bottle filled with gas See page 293 (c) McGraw Hill Ryerson 2007

Compression and Deformation Solids can appear to be compressed if the “air pockets” in the material are compressed. An example would be squishing (compressing) a marshmallow. Solids can also appear to be compressed when they are deformed. Deformation means to change shape without being forced into a smaller volume. A ball hitting a solid surface is an example of deformation. The player’s face and the ball are temporarily compressed and deformed. See pages 293 - 294 (c) McGraw Hill Ryerson 2007

Comparing Pressure Pressure depends on both the amount of force and also the area the force acts upon. Formula for pressure: 1 newton (N) of force for every square metre of area (m2) is called a pascal (Pa). 1000 Pa = 1 kPa Air pressure can be measured using a simple wet barometer as shown. See page 295 (c) McGraw Hill Ryerson 2007

Go to the next slide to check your answers Calculating Pressure Use the above formula to calculate the pressure involved in the following questions. An 880 N person stands on a 0.80 m by 1.2 m board. A 52 000 N car rests on a 3.0 m by 6.0 m platform. Go to the next slide to check your answers See page 296 (c) McGraw Hill Ryerson 2007

Calculating Pressure Use the above formula to calculate the pressure involved in the following questions. An 880 N person stands on a 0.80 m by 1.2 m board. (920 Pa) A 52 000 N car rests on a 3.0 m by 6.0 m platform. (2900 Pa) Since the clown’s weight is spread out over many nails, the pressure at each nail is small. See page 296 Take the Section 8.2 Quiz (c) McGraw Hill Ryerson 2007