Chapter 14 Preview Section 1 Fluids and Pressure

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Presentation transcript:

Chapter 14 Preview Section 1 Fluids and Pressure Forces in Fluids Preview Section 1 Fluids and Pressure Section 2 Buoyancy and Density Concept Map

Chapter 14 Section 1 Fluids and Pressure Bellringer Because water has a higher density than air, a column of water weighs more than a column of air of the same height. The density of air is 1.29 kg/m3 (at 0oC and 1 atm of pressure). The density of water is 1000 kg/m3. Calculate the masses of the following (mass equals density times volume): 1 m3 of air 1 m3 of water 100 m3 of air 100 m3 of water Write your answers in your Science Journal.

Chapter 14 What You Will Learn Section 1 Fluids and Pressure What You Will Learn Pressure is the amount of force exerted on a given area. Fluid pressure increases as depth increases. Density is mass per unit volume. Because water is denser than air, water exerts more pressure than air does. Fluids flow from areas of high pressure to areas of low pressure.

Chapter 14 Fluids and Pressure Section 1 Fluids and Pressure Fluids and Pressure A fluid is a nonsolid state of matter in which the atoms or molecules are free to move past each other. A fluid is any material that can flow and that takes the shape of its container. Liquids and gases are fluids.

Fluids and Pressure, continued Chapter 14 Section 1 Fluids and Pressure Fluids and Pressure, continued Pressure is the amount of force exerted on a given area. Moving particles of matter create pressure by colliding with one another and with the walls of their container. Fluids exert pressure evenly in all directions.

Fluids and Pressure, continued Chapter 14 Section 1 Fluids and Pressure Fluids and Pressure, continued Any force, such as the weight of an object, acting on an area creates pressure. The SI unit for pressure is the pascal. One pascal (1 Pa) is the force of one newton exerted over an area of one square meter (1 N/m2).

Chapter 14 Atmospheric Pressure Section 1 Fluids and Pressure Atmospheric Pressure The atmosphere is the layer of nitrogen, oxygen, and other gases that surrounds Earth. The pressure caused by the weight of the atmosphere is called atmospheric pressure.

Atmospheric Pressure, continued Chapter 14 Section 1 Fluids and Pressure Atmospheric Pressure, continued The atmosphere extends about 150 km above Earth’s surface. Atmospheric pressure changes as you travel through the atmosphere. At the top of the atmosphere, pressure is almost nonexistent because there are fewer gas particles and they rarely collide.

Chapter 14 Forces in Fluids Atmospheric Pressure

Chapter 14 Water Pressure Section 1 Fluids and Pressure Water Pressure Water is a fluid. So, like the atmosphere, water exerts pressure. Water pressure increases as the depth of the water increases. Water pressure depends on depth, not on the total amount of fluid present.

Water Pressure, continued Chapter 14 Section 1 Fluids and Pressure Water Pressure, continued A person swimming 3 m below the surface of a small pond feels the same pressure as a person swimming 3 m below the surface of a large lake. Because water is about 1,000 times denser than air, water exerts more pressure than air does.

Pressure Differences and Fluid Flow Chapter 14 Section 1 Fluids and Pressure Pressure Differences and Fluid Flow Fluids flow from areas of high pressure to areas of low pressure. Differences in air pressure help explain the way your body breathes and the way tornadoes create damaging winds.

Chapter 14 Forces in Fluids

Chapter 14 Section 2 Buoyancy and Density Bellringer Predict whether the following objects will float or sink in water: an apple an orange a penny a wooden pencil a nail List three other objects that will float in water. Write your answers in your Science Journal.

Chapter 14 What You Will Learn Section 2 Buoyancy and Density What You Will Learn All fluids exert an upward force on objects in the fluid. The buoyant force on an object is equal to the weight of the fluid displaced by the object. An object will float or sink depending on the relationship between the object’s weight, buoyant force, and overall density. Density can be calculated from measurements of mass and volume. The overall density of an object can be changed by changing the object’s shape, mass, or volume.

Buoyant Force and Fluid Pressure Chapter 14 Section 2 Buoyancy and Density Buoyant Force and Fluid Pressure All fluids exert an upward force called buoyant force. Buoyant force is the upward force that keeps an object immersed in or floating on a liquid. Buoyant force is caused by differences in fluid pressure.

Chapter 14 Forces in Fluids Buoyant Force

Buoyant Force and Fluid Pressure, continued Chapter 14 Section 2 Buoyancy and Density Buoyant Force and Fluid Pressure, continued A Greek mathematician named Archimedes discovered how to find buoyant force. Archimedes’ principle states that the buoyant force on an object in a fluid is an upward force equal to the weight of the volume of fluid that the object displaces.

Chapter 14 Forces in Fluids

Weight Versus Buoyant Force Chapter 14 Section 2 Buoyancy and Density Weight Versus Buoyant Force An object in a fluid will sink if the object’s weight is greater than the buoyant force (the weight of the fluid that the object displaces). An object floats only when the buoyant force on the object is equal to the object’s weight.

Buoyant Force on Floating Objects Chapter 14 Forces in Fluids Buoyant Force on Floating Objects

Chapter 14 Density and Floating Density is mass per unit volume. Section 2 Buoyancy and Density Density and Floating Density is mass per unit volume. Any object that is denser than the surrounding fluid will sink. An object that is less dense than the surrounding fluid will float.

Chapter 14 Determining Density Section 2 Buoyancy and Density Determining Density To determine the density of an object, you need to know the object’s mass and volume. A balance can be used to find the mass of an object. To find the volume of a regular solid, such as a cube, multiply the lengths of the three sides together.

Determining Density, continued Chapter 14 Section 2 Buoyancy and Density Determining Density, continued To find the volume of an irregular solid, use water displacement. By measuring the volume of water that the object displaces, or pushes aside, you find the volume of the object itself.

Changing Overall Density Chapter 14 Section 2 Buoyancy and Density Changing Overall Density The overall density of an object can be changed by changing the object’s shape, mass, or volume. Submarines use ballast tanks to change their overall density and dive under water. As water is added to the tanks, the submarine’s mass increases, but its volume stays the same.

Changing Overall Density, continued Chapter 14 Section 2 Buoyancy and Density Changing Overall Density, continued Most bony fishes have an organ called a swim bladder that allows them to adjust their overall density. An inflated swim bladder increases the fish’s volume, which decreases the fish’s overall density so the fish does not sink.

Chapter 14 Forces in Fluids

Chapter 14 Forces in Fluids Concept Map Use the terms below to complete the concept map on the next slide. depth density water pressure pressure atmospheric pressure fluids water

Chapter 14 Forces in Fluids Concept Map

Chapter 14 Forces in Fluids Concept Map