Presentation is loading. Please wait.

Presentation is loading. Please wait.

Buoyancy The relationship is → B = ρVg

Published byEustace Butler Modified over 7 years ago

Similar presentations

Presentation on theme: "Buoyancy The relationship is → B = ρVg"— Presentation transcript:

1 Buoyancy The relationship is → B = ρVg
Any time an object is immersed in a fluid, it will experience an upward force (buoyant force) from the fluid. (you feel lighter in a swimming pool.) The relationship is → B = ρVg Where: B = buoyant force (N) ρ = density of the fluid (kg/m3) V = volume of displaced fluid (m3) g = 9.8 m/s2

2 Archimedes’ Principle
the volume of the displaced fluid is equal to the volume of the submerged portion of the displacing object. Problem solving applications Use B as you would any other force in ΣF calculations. (B always is directed up)

3 Examples Calculate the weight of a rock of mass 32 kg and density 2800 kg/m3 when fully submerged in water of density 1000 kg/m3 ? GIVEN mrock = 32 kg (Fg = N) ρrock = 2800 kg/m3 g = 9.8 m/s2 ρfluid = 1000 kg/m3

4 The weight of the rock in the water is
First the volume of the rock can be determined. ρ = m / V therefore V = m/ρ V = (32 kg)  ( 2800 kg/m3) = 1.14 x 10-2 m3 this is also the volume of the displaced fluid (since the rock is fully submerged) the buoyant force calculated as follows: B = ρVg therefore B = (1000) ( 1.14 x 10-2) (9.8) B = 112 N The weight of the rock in the water is therefore 112 N less than it is in air or N

5 the buoyant force calculated as follows:
A helium balloon of volume 12 x 10-3 m3 has a total mass of 12 grams. Calculate the initial acceleration of the balloon when released in air (density = 1.3 kg/m3). GIVEN mballoon = kg (Fg = N) Vballoon = 12 x 10-3 m3 since the balloon is fully submerged in air, this is also the volume of the displaced air g = 9.8 m/s2 ρfluid = 1.3 kg/m in this case the fluid the balloon is fully submerged in is air the buoyant force calculated as follows: B = ρVg therefore B = (1.3) ( 12 x 10-3) (9.8) B = N

6 A free body diagram for the balloon is shown to the right.
Σ F = ma Fg B - Fg = ma a Σ F = B - Fg = .012 (a) a = 2.95 m/s2

7 A wooden raft of density 600 kg/m3 is placed in
sea water ( = 1030 kg/m3). If the mass of the raft is 300 kg, what additional mass can it hold and remain afloat? First the volume of the raft can be determined. ρ = m / V therefore V = m/ρ V = (300 kg)  ( 600 kg/m3) = 0.50 m3 this is also the volume of the displaced fluid (since the raft can remain afloat when fully submerged)

8 The weight the raft itself = (300)(9.8) = 2940 N
the buoyant force calculated as follows: B = ρVg therefore B = (1030) ( 0.5) (9.8) B = 5047 N The weight the raft itself = (300)(9.8) = 2940 N The additional weight the fully submerged raft can hold is therefore – 2940 = 2107N The additional mass is ÷ 9.8 = 215 kg

9 A gold ( = 19,300 kg/m3) bar is suspected to have a hollow
center. It has a mass of g in air and an apparent mass of 36.22 g in water. How large is the hole in the center? First the volume of the bar, if it were solid gold, can be determined. ρ = m / V therefore V = m/ρ V = ( kg)  ( 19,300 kg/m3) = 1.98 x 10-6 m3 The buoyant force can be determined as the difference in weight of the bar in air and in water. B = ( )(9.8) – ( )(9.8) = N B = ρVg therefore 0.02 = (1000) (V) (9.8) V= 2.03 x 10-6 m3

10 Therefore the hole is 5 x 10-8 m3
The calculated volume is bigger than the volume of a solid gold bar by 2.03 x 10-6 m3 – 1.98 x 10-6 m3 Therefore the hole is 5 x 10-8 m3

Download ppt "Buoyancy The relationship is → B = ρVg"

Similar presentations

Fluid Dynamics What is a fluid? Does a gas differ from other fluids?

Fluid Dynamics What is a fluid? Does a gas differ from other fluids?
Introduction to Physical Science Monday, Wednesday, Thursday Tom Burbine

Introduction to Physical Science Monday, Wednesday, Thursday Tom Burbine
What is Buoyancy? Buoy = float (in Latin) Archimedes discovered this with the golden crown.

What is Buoyancy? Buoy = float (in Latin) Archimedes discovered this with the golden crown.
3.5….ARCHIMEDES’ PRINCIPLE

3.5….ARCHIMEDES’ PRINCIPLE
Pg. 82 Floating and Sinking

Pg. 82 Floating and Sinking
Floating and Sinking.

Floating and Sinking.
The tendency or ability of an object to float.

The tendency or ability of an object to float.
Buoyancy Properties of Matter.

Buoyancy Properties of Matter.
DENSITY & BUOYANCY. BUOYANCY BUOYANCY = the ability to float in a fluid. Examples of fluids = water, air BUOYANT FORCE = the upward force that acts on.

DENSITY & BUOYANCY. BUOYANCY BUOYANCY = the ability to float in a fluid. Examples of fluids = water, air BUOYANT FORCE = the upward force that acts on.
What is the relationship between buoyancy and the weight of displaced water? Archimedes’ Principle states that buoyancy is equal to the weight of the water.

What is the relationship between buoyancy and the weight of displaced water? Archimedes’ Principle states that buoyancy is equal to the weight of the water.
Buoyancy and Pressure Force: Weight: Buoyancy Archimedes Principle Pressure Formulas and Atmosphere.

Buoyancy and Pressure Force: Weight: Buoyancy Archimedes Principle Pressure Formulas and Atmosphere.
Forces In Fluids Chapter 3 Section 2 - Floating and Sinking

Forces In Fluids Chapter 3 Section 2 - Floating and Sinking
PROPERTIES OF MATTER 12.3. Chapter Twelve: Properties of Matter  12.1 Properties of Solids  12.2 Properties of Fluids  12.3 Buoyancy.

PROPERTIES OF MATTER Chapter Twelve: Properties of Matter  12.1 Properties of Solids  12.2 Properties of Fluids  12.3 Buoyancy.
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.

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.
What is Buoyancy? Buoy = float (in Latin) Archimedes discovered this with the golden crown. (He then ran around buck nekkid!!!)

What is Buoyancy? Buoy = float (in Latin) Archimedes discovered this with the golden crown. (He then ran around buck nekkid!!!)
Chapter 11 Fluids. Density and Specific Gravity The density ρ of an object is its mass per unit volume: The SI unit for density is kg/m 3. Density is.

Chapter 11 Fluids. Density and Specific Gravity The density ρ of an object is its mass per unit volume: The SI unit for density is kg/m 3. Density is.
Sect. 10-7: Buoyancy/Archimedes Principle Experimental facts: –Objects submerged (or partially submerged) in a fluid APPEAR to “weigh” less than in air.

Sect. 10-7: Buoyancy/Archimedes Principle Experimental facts: –Objects submerged (or partially submerged) in a fluid APPEAR to “weigh” less than in air.
Fluids and Buoyant Force

Fluids and Buoyant Force
Chapter 9 Fluid Mechanics. Fluids “A nonsolid state of matter in which the atoms or molecules are free to move past each other, as in a gas or liquid.”

Chapter 9 Fluid Mechanics. Fluids “A nonsolid state of matter in which the atoms or molecules are free to move past each other, as in a gas or liquid.”
Fluid Mechanics Liquids and gases have the ability to flow They are called fluids There are a variety of “LAWS” that fluids obey Need some definitions.

Fluid Mechanics Liquids and gases have the ability to flow They are called fluids There are a variety of “LAWS” that fluids obey Need some definitions.

Similar presentations

Ads by Google