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Density/Bouyancy Calculating Density

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1 Density/Bouyancy Calculating Density
A sample of liquid has a mass of 24g and a volume of 16mL. What is its density? A piece of metal has a mass of 43.5g and a volume of 15cm3. What is its density?

2 Comparing Densities of substances, to compare the densities of different substances, you can place them in the same container, the densest will sink at the bottom and the least dense will be on the top Changing densities Since Density=mass/volume changing the mass and/or the volume will change the density of the substance

3 Buoyancy Buoyancy is the ability of objects to float.
The buoyant force is an upward force that fluids exert on all matter. Buoyant force acts in the direction opposite to the force of gravity, so it makes an object feel lighter. Fluid exert pressure on all directions of submerged object. If the weight of submerged object is greater than buoyant force the object will sink, If the weight of submerged object is equal to buoyant force, the object will not sink. (Remember we also use density to explain why objects sink or float).

4 Who is Archimedes? Archimedes ( BC), pre-eminent Greek mathematician and inventor, who wrote important works on plane and solid geometry, arithmetic, and mechanics. "Archimedes",Microsoft« Encarta« Encyclopedia ⌐ Microsoft Corporation. All rights reserved.

5 The law Archimedes' Principle, law of physics that states that when an object is totally or partially immersed in a fluid, it experiences an upthrust equal to the weight of the fluid displaced. The principle is most frequently applied to the behaviour of objects in water, and helps to explain floating and sinking, and why objects seem lighter in water. It also applies to balloons in the air.

6 Archimedes’ Principle
Archimedes’ Principle states that the buoyant force acting on a submerged object is equal to the weight of the volume of fluid displaced by the object. Submarines sink when its weight is greater than the buoyant force. It rises when its weight is less than the buoyant force. Ships; a solid block of steel sinks in water. A steel ship with the same weight floats on the surface since the ship displaces more water than block of steel, a greater buoyant force acts on the ship.

7 UPTHRUST AND BUOYANT FORCE
The key word in the principle is “upthrust” (or buoyant force), which refers to the force acting upward to reduce the actual weight of the object when it is under water. for example, a metal block with a volume of 100 cm3 is dipped in water, it displaces an equal volume of water, which has a weight of approximately 1 N. The block therefore seems to weigh about 1 N less.

8 SINKING AND FLOATING OBJECTS
The reading of spring balance is 2.7 N The reading of spring balance is 1.7 N

9 ZERO What is the reading of spring balance
if the wood is attached to it ? ZERO

10 Density and Buoyancy From Archimedes’s Principle : Buoyant Force = Weight of fluid displaced = mg (note : F = ma) = Vg (note :  = m ) V Thus FB =  V g Where …… FB = Buoyant Force or Upthrust  = Density of fluid V = Volume of fluid displaced or the volume of the object that immersed in the fluid.

11 Buoyant Force and Floatation
Buoyant force = weight  the object floats and stationary Buoyant force > weight  the object moves up Buoyant force < weight  the object moves down

12 The Law of Floatation A floating object displaces its own weight of fluid in which it floats.

13

14 THINK!!!!! 1. Why the depth of ship immersed in the water different?
warm fresh water cold fresh water warm sea water cold sea water 1. Why the depth of ship immersed in the water different?

15 Fresh water less dense than sea water and warm water less dense than coldwater so warm fresh water need to be displaced more to keep the uptrust force equal with weight of the boat so it still can float.

16 2. If the plasticine is formed into a ball, it will sink.
But when it is formed into a hull it will float. Why? -

17 BECAUSE…..

18 APPLICATIONS Hot air balloon 1. rises upwards
(Upthrust > Weight of hot air (helium gas) + weight of airship fabric + weight of gondola + weight of passengers.)( balloon expand) 2..descends (Upthrust < Weight of hot air (helium gas) + weight of airship fabric + weight of gondola + weight of passengers.)(balloon shrinks) 3. stationary (Upthrust = Weight of hot air (helium gas) + weight of airship fabric + weight of gondola + weight of passengers.)( balloon size uncanged)

19 PLIMSOLL LINE OF THE SHIP
The density of sea water varies with location and season. To ensure that a ship is loaded within safe limits , the Plimsoll line marked on the body of the ship acts as a guide.

20 If ballast tanks empty Upthrust > weight  submarine rises to surface
If ballast tanks full  Upthrust < weight  submarine sinks to bottom SUBMARINE

21 Hydrometer An hydrometer is an instrument used to measure the density of a liquid. lead shot to make it float upright In a liquid of lesser density , the hydrometer is more submerged. The hydrometer floats higher in a liquid of higher density.

22 Buoyant force = Actual weight – Apparent weight = 0.85 – 0.45 = 0.4N
Example 1. The weight of the rock in air is 0.85N. When it is completely submerged in water, its weight is 0.45N. What is the buoyant force acting on the rock when it is completely submerged in the water ? Solution : Buoyant force = Actual weight – Apparent weight = 0.85 – 0.45 = 0.4N

23 2. A concrete slab weight 180N
2. A concrete slab weight 180N. When it is fully submerged under the sea its apparent weight is 105N. Calculate the density of the sea water if the volume of the sea water displaced by the concrete slab is 4800 cm3. [ g = 9.8 Nkg-1 ] Solution : Buoyant force = actual weight – apparent weight = 180 – 102 = 72N

24 According to Archimedes’s principle
Buoyant force = weight of sea water displaced Therefore, F = pVg so…. p = F / Vg = 72 / (4800 x x 9.8 ) = kg m-3

25 THE END PHYSICS IS SIMPLY FUN


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