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Density 1. Mass and Volume 2. What is density? 3. d = m/V 4. Solving Density Problems 5. Archimedes 6. Buoyancy 7. Applications 8. Practice Problems.

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Presentation on theme: "Density 1. Mass and Volume 2. What is density? 3. d = m/V 4. Solving Density Problems 5. Archimedes 6. Buoyancy 7. Applications 8. Practice Problems."— Presentation transcript:

1 Density 1. Mass and Volume 2. What is density? 3. d = m/V 4. Solving Density Problems 5. Archimedes 6. Buoyancy 7. Applications 8. Practice Problems

2 Which is heavier? 1 kilogram of feathers Or 1 kilogram of lead? They are both 1 kg so they weight the same!

3 Both of these substances have the same mass, but would have different volumes This means that lead and feathers have different densities!

4 Mass –A physical property that represents the amount of matter an object contains –Measured in: –Grams (g) –Kilograms (kg)

5 Volume –A physical property that represents how much space an object occupies –Measured in: –Millilitres (mL) –Litres (L) –Centimetres cubed (cm 3 )

6 What is density?  Density is a quantitative property  It is a measure of how close the particles in a substance are.  It is a measure of how much mass there is in a specific amount of space.

7 Density If you have two objects (say iron and wood) of the same size, which will feel heavier? Why? The iron because it has more stuff squeezed into the same volume (amount of space). –Both objects have the same volume but the particles inside the iron are much closer together. Therefore, iron will have a higher mass –Higher mass with the same volume = higher density wood iron

8 Formula!! FORMULA: d = m/V Where, d=density m=mass V=volume

9 Components

10 Solving Density Problems When solving density problems use the GUESSS method G: Givens U: Unknown E: Equation S: Substitute S: Solve S: Statement

11 Example What is the density of 5 g cube with one side having a length of 2 cm? G: m=5g, v= 2x2x2 = 8 cm 3 U: d=? E: d=m/v S: d= 5g/ 8 cm 3 S: d= 0.625g/cm 3 S: Therefore, the density of the cube is 0.63g/cm 3

12 *Volume Formulas* These will be provided V = l x w x h V =  r 2 h (cylinder) V = 4/3  r 3 h (Sphere) Irregular shaped objects: Use the method of displacing water

13 The Genius of Archimedes 287-212 BC

14 Archimedes Famous Greek mathematician. Much of Archimedes fame comes from his relationship with Hiero, the king of Syracuse, as he performed a number of favors using his intellect

15 The most famous of these favors for the king was that of the gold crown Watch the following video Crown of Syracuse

16 Gold or Silver?? Recall formulas and figures: Density of gold = 19.34 g/cm 3 Density of silver = 10.5 g/cm 3 Density = mass volume Eg. Aristotle is given a 730 g crown… what should he do to determine if it is authentic?

17 PUT IT IN WATER!!!!!!!!

18 After sinking it in water he observes that it displaces 45 cm 3 of water…. Is it authentic??? Density = mass volume Density = 730g 45cm 3 = 16.22 g/cm 3 The crown is not authentic as it is not dense enough to be gold (Density of gold = 19.34g/cm 3 ).

19 End of Day 1 Density Calculations Worksheet and Answers

20 Coke vs. Diet Coke

21 Terms Negatively Buoyant – Will Sink Positively Buoyant – Will Float Neutral Buoyant – Will neither sink or float, it will hang out in the middle (like a fish)

22 Buoyancy When an object is placed into a fluid it takes up room (displaces) The greater the volume of the object, the more fluid it will displace

23 Buoyant Force The displaced fluid places an upward force on the object This fluid has mass, if the mass of this displaced fluid is greater than the mass of the object, the object will float

24 Buoyant Force That is why you weigh less in water because there is an upward force which decrease the downward force caused by gravity

25 Since the downward force (gravity) is decreased by the upward force (buoyant) of water, you can push heavy objects like a boat easily in water.

26 Eureka! Buoyancy Video

27 Put Another Way Submerged objects always displace fluid upwards (the level of water in the bathtub rose when Archimedes got in). Thus, he reasoned that the buoyant force on an object must be equal to the mass of fluid that object displaces.

28 Put Another Way If the mass of an object is greater than the mass of displaced fluid, it will sink, if the mass of the object is less than the mass of displaced fluid, it will rise. –Which object has a mass greater than the mass of the displaced fluid?

29 The volume of displaced fluid is precisely equal to the volume of the submerged part of the object If the force of gravity (mass of object x gravity) is greater than the buoyant force, the object will sink

30 Example If you place an object that weighs 63 lbs into fresh water, the object is displacing 62.4 lbs of water, but weighs 63 lbs. This object will be negatively buoyant - it will sink. It is however being buoyed up with a force of 62.4 lbs If we put the same object into salt water, it would still weigh 63 lbs, but would be buoyed up by a force of 64 lbs, and it would float (more on salt water soon!)

31 Buoyancy Simplified Buoyancy is the tendency of an object to float in a fluid (gases are considered fluid in this case). If an object is less dense than the fluid it will float.

32 Buoyancy Simplified This explains why wood and Styrofoam float on water, whereas concrete and steel sink. It also explains why it is possible to make boats out of steel or even concrete. –As long as there are portions of the boat below the surface of the water that are hollow (i.e. contain air), the overall density of the boat can be less than that of water

33 If….. If however, the boat takes on water than the part of the boat once filled with air (not very dense) now becomes filled with water (much denser). It no longer has a strong buoyant force and sinks

34 Why do things sink or float Video

35 Water Water is the most common fluid but what is the density of water? 1.0 g/mL or 1.0 g/cm 3 Anything that has a density less than 1.0g/mL will float!

36 Applications Life jackets keep you afloat because they are full of air which decreases your density below that of water Scuba divers can increase and decrease the amount of air in their suits to go up or down

37 Floating When you hold your breath you are effectively decreasing your density by filling your lungs with air. If you breath out you will sink

38 Fat Floats If you add oil to water, the oil will float to the top People who are obese can also float without holding their breath because all the fat makes them less dense than the water

39 Oil Spills An oil spill can have devastating consequences because oil doesn’t dissolve in water and is less dense. As a result, it floats on the surface. Ultimately a great deal of the oil spreads out on the water until it reaches the shore

40 The Dead Sea On average, sea water is 3% denser than fresh water This is why floating is easier in salt water than in fresh.

41 The Dead Sea Near Jordan 8.6 times more salty than the ocean People can float without holding their breath

42 Problems Recall: Density of gold = 19.34 g/cm 3 1. Which one of the following is gold? –A 1000 g crown that displaces 40 cm 3 of water –A 300g crown that displaces 11 cm 3 water –A 567g crown that displaces 24 cm 3 water 2. Is a 2200 g crown that displaces 113 cm 3 a gold crown? 3. Is 1300 g crown that displaces 124 cm 3 a silver crown? 4. A 400 g silver crown should displace how much water? 5. How much should a gold crown weigh if it displaces 40 cm 3 of water?

43 The End Density Problems Worksheet 2


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