1. FLUIDS MECHANICS

2. DENSITY & BUOYANCY

3. BUOYANCY BUOYANCY = the ability to float in a fluid.
Examples of fluids = water, air
BUOYANT FORCE = the upward force that acts on a submerged object.
It acts opposite of gravity

4. THE BIGGER FORCE WINS, SO THE BLOCK SINKS
WEIGHT OF OBJECT
THE BIGGER FORCE
WINS, SO THE BLOCK
SINKS
BUOYANT
FORCE

5. Which one is easier to pick up?
Why?

6. This beach ball floats.
Why?

7. Because the Buoyant Force is greater than the weight of the ball.

8. ARCHIMEDES’ PRINCIPLE
The buoyant force acting on a submerged object is equal to the weight of the fluid the object displaces.

10. ARCHIMEDES’ PRINCIPLE states that the WEIGHT of the amount of water displaced is equal to the BUOYANT FORCE.

12. A WHICH ONE IS MORE LIKELY TO FLOAT?
Mass = 90 kg
Mass = 90 kg B A
WHICH ONE IS MORE
LIKELY TO FLOAT?

13. DENSITY
DOESN’T DENSITY HAVE SOMETHING TO DO WITH IF SOMETHING SINKS OR FLOATS?

14. DENSITY d = m / v DENSITY OF WATER = 1 g/cm3
If the object has a higher density, it sinks.
If the object has a lower density, it floats.
if the object has the same density, it flinks (floats in the middle of the water).

15. DENSITY & BUOYANCY SO THE BEACH BALL FLOATS. WATER
Having a lower density than water means that the beach ball’s buoyant force is higher than the weight of the beach ball.
SO THE BEACH
BALL FLOATS.
WATER

16. DENSITY & BUOYANCY SO THE CINDER BLOCK SINKS. WATER
Having a higher density than water means that the cinder block’s buoyant force is lower than the weight of the cinder block.
SO THE CINDER
BLOCK SINKS.
WATER

17. DENSITY & BUOYANCY SO THE BOOT NEITHER SINKS NOR FLOATS, IT FLINKS
Having the same density as water means that the boot’s buoyant force is equal to the weight of the boot.
SO THE BOOT
NEITHER SINKS
NOR FLOATS, IT
FLINKS
WATER

18. m d = v CHANGING DENSITY You can change an object’s density by:
Increasing/decreasing its mass
Increasing/decreasing its volume m v
d =

20. AN OBJECT FLOATS CAUSES: Weight is less than the buoyant force.
Object is less dense than the fluid
Object decreases its mass and becomes less dense than the fluid.
Object increases its volume and becomes denser than the fluid.

21. AN OBJECT SINKS CAUSES: Weight is greater than the buoyant force.
Object is denser than the fluid
Object increases its mass and becomes denser than the fluid.
Object decreases its volume and becomes denser than the fluid.

22. Fluid Properties - Density ()
Defined as ratio of mass per unit volume,
i.e. density () = mass (m) / volume (V).
It varies with temperature and pressure, especially so in the case of gases and vapors (much less so for liquids).
Typical values:
water = 1000 kg/m3
Air = kg/m3

23. Fluid Properties Specific Volume (Vs) & Specific Weight (w)
Specific volume (Vs or v) is defined as ratio of volume per unit mass,
i.e. Vs = V / m = 1 / 
Specific weight (w) is a term often used in hydraulics, defined as weight per unit volume, i.e. w = mg / V = g.
Density of a fluid relative to that of water at 1 bar, 4oC (i.e kg/m3).
i.e. SG =  / 1000
No units.