1: Pressure depends on density and depth

Slides:

Advertisements

Similar presentations

Advertisements

Pressure in fluids.

Chapter 12 Forces & Fluids.

Chapter 14 Buoyancy.

Archimedes’ Principle An object immersed in a liquid has an upward buoyant force equal to the weight of the liquid displaced by the object. An object will.

Chapter 3: Forces & Fluids Review. How can you change the pressure on the ground when you are standing?  Stand on one foot (decrease area)  Change into.

Liquid and Atmospheric

Notes – Pressure & Buoyant Force

The tendency or ability of an object to float.

Chapter 11 – Forces in Fluids

Buoyant Force and Archimedes Principle

The tendency or ability of an object to float.

Chapter 12: Forces and Fluids

Notes – Pressure & Buoyant Force

Density and Buoyancy.

Higher Physics – Unit – Density and Pressure.

Measuring Pressure. What does zero pressure look like? There is no force applied to an area If atmospheric pressure, there are no particles pushing on.

Pgs  Calculate the pressure exerted by a fluid.  Explain Pascal’s Principle.  Calculate how pressure varies with depth in a fluid.

Fluid Mechanics Ellen Akers. Fluids A fluid is a substance that has the ability to flow and change its shape. Gases and liquids are both fluids. Liquids.

PRESSURE OF A FLUID Barometer air pressure pressure = height of mercury column.

Pressure; Pascal’s Principle

 Pressure is the force pushing down on a surface  Pressure varies with temperature.

Forces and Fluids.

Chapter 10 Fluids. Units of Chapter 10 Phases of Matter Density Pressure in Fluids Atmospheric Pressure and Gauge Pressure Pascal’s Principle Measurement.

Pressure and Fluids § 12.1–12.3. Density Relating “how big” to “how much” § 12.1.

- Pressure Area The area of a surface is the number of square units that it covers. To find the area of a rectangle, multiply its length by its width.

Forces and Fluids.

Gravity & Fluid Pressure the weight of a fluid can exert a pressure on anything underneath it this downward pressure is due to the fluid’s weight and the.

The fun never stops.... Liquids and Gases can exert forces. – Examples: waves crashing, wind Liquids and Gases can exert forces. – Examples: waves crashing,

Good Morning! 6/5/2016 Starter: why is it that a 1000 mega gram cruise ship can float when a ½ kg rock sinks? (there are two answers really) Today we.

Upthrust, Floating & Sinking

Density and Buoyancy Review 1-20 study notes. 1. Density =

Liquids -They always take the shape of their container -They flow or you can pour them.

Fluids and Pressure PHYS 1090 Unit 5.

Fluid Pressure.

Density/Bouyancy Calculating Density

Floating and Sinking Whatever floats your boat!. Warm-up 1. Observe the two beakers on the front table and record your observations. 2. Predict- will.

Chapter 7 Forces in Fluids.

Unit 1 Lesson 5 Fluids and Pressure

AND THEIR FORCES Fluids. Matter that can flow is called a fluid. “Fluid” does not mean the same thing as “liquid.” Both liquids and gases are called fluids.

Why does he need to equalise his ears on the way down? What would happen if he just shot up to the surface from 20m down?

Chapter 10 Fluids Pressure in Fluids Pressure is defined as the force per unit area. Pressure is a scalar; the units of pressure in the SI system.

Lots of slides, but little writing…

Chapter 12: Forces and Fluids

Chapter 14, Section 2 Buoyant Force

Goal: To understand liquids and gasses

Physics Support Materials Higher Mechanics and Properties of Matter

Buoyancy Chapter 3.4. Buoyancy Chapter 3.4 What is buoyancy? There is some force balancing the object in the water. Gravity is pushing down… Buoyant.

Do Now A raft is made of a plastic block with a density of 650 kg/m3, and its dimensions are 2.00 m × 3.00 m × 5.00 m. What is the force of buoyancy on.

To understand pressure

2015 EdExcel A Level Physics

Chapter Menu Lesson 1: Density

PHYSICS – Pressure.

DENSITY AND PRESSURE.

3.2 Pressure and the Buoyant Force

Buoyancy & Pressure Ch 2 Section 3.

MASS, WEIGHT AND DENSITY

Pressure Chapter 3.3.

Extension and energy transfers

Upthrust and Gravity.

Forces in Fluids: Buoyant Force

Chapter 14, Section 2 Buoyant Force

MASS, WEIGHT AND DENSITY

Whatever floats your boat!

Why does an ice cube float in water?

Forces and Matter 2016 EdExcel GCSE Physics Topic 15 W Richards

Presentation transcript:

1: Pressure depends on density and depth Pressure and Upthrust 1: Pressure depends on density and depth 2) P = h x p x g ? 3: Float / sink ?

Upthrust in Action Bubbles rising. Pushing a ball down into water and letting go. Raising an old canon in a shipwreck to the surface using balloons. Jellyfish drifting in the ocean. A diving gannet rises to the surface of the sea. A balloon rises into the upper atmosphere

Using Upthrust

The Portuguese Man of War

The Force of Upthrust Upthrust is a force in fluids which pushes in an upward direction. If the upthrust force is greater than weight the object will …… If the upthrust force is less than weight the object will ……. If the upthrust force is the same as the weight the object will stay put or float.

Measuring and Investigating Upthrust Can you find out the upthrust force acting on different materials ? Can you use and read a Newton meter accurately ? Can you calculate upthrust and present your results clearly ?

Measuring Upthrust Material Weight in air (N) Weight in water (N) Upthrust (N) Jelly fish Rock Perspex Metal Weights Plastic Mammoth

Upthrust Analysis 1: What type of materials have the greatest upthrust force acting on them ? 2: How do you think upthrust is related to density ? 3: How could you work out the density of the materials you tested ?

Calculating Pressure at Depth Pressure at Depth Equation: Pressure due to column of liquid = height x density x gravity (m) (kg/m3) (N/kg) = P = h x ρ x g PRESSURE INCREASES WITH DEPTH

Gravitational field strength Example Questions 1) Calculate the pressure due to water on a whale at depth 2992 m in the sea. 2) Calculate the depth of a whale if the water pressure on it is 500 000 Pa. Atmospheric pressure 100 000 Pa Density of sea water 1030 kg / m3 Density of fresh water 1000 kg / m3 Gravitational field strength 10 N/kg

Advanced Upthrust Calculations Calculate difference in pressure between top and bottom surfaces if distance = 0.75 m. This P difference produces a net upthrust force = P difference x area.