2. Pressure in Open Systems
Pressure increases with depth
Type of fluid also plays a role in pressure (more dense fluids will exert greater pressures)
Gravity also plays a role (larger gravity results in larger pressure)

3. Pressure due to a liquid depends on DEPTH and density, not volume!

4. Why is the water level the same in each vase?
Which teapot can hold more tea?

5. Problem…
A reservoir behind a dam is 15 m deep. What is the pressure of the water in the following situations?
At the base of the dam?
5.0 m from the top of the dam?
If the water were saltwater, would the pressures be greater or less?

6. Public Water System

8. Buoyancy What happens to water level when something is placed in it?
It rises
How much does it rise?
The amount of displaced water is equal to the volume of the submerged part of the object
A completely submerged object always displaces a volume of liquid equal to its own volume.
This is a good way to find the volume of irregular shapes

9. Mr. Archimede’s Bath
King Hiero’s Crown

10. Archimede’s Principle
Greek scientist Archimede’s (212 B.C.) discovered that the “Buoyant force acting on an object placed in a fluid is equivalent to the weight of the displaced fluid”
The force does not depend on the weight of the object, only the weight of the displaced fluid.

11. Buoyancy
A buoyant force is an upward force exerted on objects when placed in a fluid, due to the difference in pressure between the bottom and top of an object
Magnitude of the force depends on
Volume of displaced fluid
Density of displaced fluid
Magnitude of gravity
1 liter of water = 1000 cm3 = 1 kg = 9.8 N

13. Flotation
What is the buoyant force on a 10 ton ship floating in fresh water?
In salt water?
In a lake of mercury?
10 tons in each case; the weight of the ship is constant, so the weight of the water displaced must also be constant. The volume of the liquid displaced will differ based on the density of the liquid.

14. Flotation
How can a ship be made of iron if a solid block of iron sinks?
It has to do with the shape of the ship
Principle of Flotation—a floating object displaces a weight of fluid equal to its own weight
The ship must be shaped to displace enough water to equal its own weight
The deeper the ship is immersed, the more water it displaces—a loaded ship will ride lower in the water than an unloaded ship

15. Problem…
A 10 lb box falls overboard a boat, and is now floating in the water. The box has the shape of a cube, 1 ft on a side. What is the buoyancy force on the box?
How much of the box is under water? (assume it is floating level)

16. Problem… The float in a toilet tank is a sphere of diameter 10 cm.
1) What is the buoyancy force on the float when it is completely submerged? You might need a reminder that the volume of a sphere is V = 4/3π(r)3
2) Here's a slightly tougher one. If the float must have an upward buoyancy force of 3.0 N to shut off the ballcock valve, what percentage of the float will be submerged?

17. Buoyancy When the weight of the submerged object…
is greater than the buoyant force, the object will sink to the bottom
is equal to the buoyant force, the object will remain at any level (like a fish)
is less than the buoyant force, the object will rise to the surface and float
In terms of density, if the object is
denser than the fluid, it will sink
the same density as the fluid, it will neither sink or float
less dense than the fluid, it will float

18. Can a ship made of concrete float?
Concrete is usually more dense than water, and will therefore normally sink when placed in water.

19. SS Selma, scuttled in Galveston Harbor, concrete tanker ship used during World War I

21. Apparent Weight = Fg-Fb

24. Apparent Weight Apparent weight depends on the density
Apparent weight = Fg – Fb = ρoVog – ρfVfg
For a submerged object:
A piece of metal weighs 50.0 N in air, 36.0 N in water, and 41.0 N in an unknown liquid. Find the densities of the following:
The metal
The unknown liquid

25. Problem…
A cubic decimeter, 1.00 X 10-3 m3, of aluminum is submerged in water. The density of aluminum is 2.70 X 103kg/m3
What is the magnitude of the buoyant force acting on the metal?
What is the apparent weight of the metal?

26. Archimedes’ Principle
Palmer drops an ice cube into his glass of water. The ice, whose density is 917 kg/m3, has dimensions m x m x m. What is the buoyant force acting on the ice?
William’s wedding ring, presumed to be pure gold, has a mass of 0.1 kg. When submerged in water its apparent mass is kg. The density of water is 1000 kg/m3 which is equivalent to 1 kg/L.
What is the buoyant force in Newtons?
What volume of water (in liters) is displaced?
Is the ring made of pure gold (ρ = 19.3 kg/L)?
Pine is 0.50 as dense as water and therefore floats in water. Weight density of water is 9800 N/m3 or 9.80 N/L.
What weight of water will be displaced by 25 kg of floating pine?
What additional force would be required to poke the pine beneath the surface so it is completely submerged?

28. Hydrometers
Simple devices used to determine the density (specific gravity) of a fluid.

29. What do you think????
You are floating in a small raft in your pool. There's a brick in the raft. You toss the brick out of the raft and into the pool. The brick sinks to the bottom of the pool. Does the water level at the side of the pool rise, stay the same, or decrease?

34. Germany “Water Bridge”
Did this bridge have to be designed to withstand the additional weight of ship and barge traffic, or just the
weight of the water?

35. Streamlines Lines drawn to represent the flow of a fluid
Velocity of fluid is tangent to the streamline

36. Streamlines
Can be used to represent either Laminar or Turbulent flow.

38. Laminar and turbulent flow over a submarine

39. Transition from laminar to turbulent flow can be seen occurring down the length of this missile-body model captured by shadowgraph in high-speed flow.

40. Notice how the angle of attack of the wing can change the flow of air over the wing.
As flow becomes turbulent, drag increases and lift is lost.
This condition is known as “stall”

41. Turbulence in Mt. Spurr eruption, Alaska, 1992