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Published byJulianna Carpenter Modified over 9 years ago
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1 What is energy? Energy makes objects move. makes things stop. is needed to “do work”.
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2 What is Work ? Work is done when you climb. you lift a bag of groceries. you ride a bicycle. you breathe. your heart pumps blood. water goes over a dam.
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3 What is potential Energy? Potential energy: energy stored for use at a later time. Examples are water behind a dam. a compressed spring. chemical bonds in gasoline, coal, or food.
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4 What is kinetic energy? Kinetic energy: energy of matter in motion. Examples are swimming. water flowing over a dam. working out. burning gasoline.
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5 What is a calorimeter? Heat is measured in joules or calories 1 kilocalorie (kcal) = 1000 calories (cal) A calorimeter measure heat transfer. can be made with coffee cup and thermometer. Indicates heat lost by sample Indicates heat gained by water.
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6 Caloric Food Values On food labels, energy shown as nutritional Calorie, written with a capital C. caloric or energy values for foods indicate number of kcal(Cal) provided by 1 g of each type of food. Carbohydrate: 4 kcal 1 g Fat (lipid): 9 kcal 1 g Protein: 4 kcal 1 g
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7 Energy Values for Some Foods amount of energy needed each day depends on age, sex, and physical activity
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8 A cup of whole milk contains 12 g of carbohydrate, 9.0 g of fat, and 5.0 g of protein. How many kcal (Cal) does a cup of milk contain? 12 g carbohydrates x 4 kcal/g= 50 kcal (1 SF) 9.0 g fat x 9 kcal/g = 80 kcal (1 SF) 5.0 g protein x 4 kcal/g = 20 kcal (1 SF) 150 kcal Problem:
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9 Temperature measure of how hot or cold an object compared to another object. Indicates heat flows from object with higher temperature to object with lower temperature. is measured using a thermometer.
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10 Different Temperature Scales Temperature Scales are Fahrenheit, Celsius, and Kelvin. have reference points for boiling and freezing points of water.
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11 Fahrenheit scale, there are 180°F between the freezing and boiling points and on Celsius scale, there are 100°C. 180°F = 9°F =1.8°F 100°C 5°C 1°C Fahrenheit temperature, adding 32 adjusts zero point of water from 0°C to 32°F. T F = 9/5 T C + 32 or T F = 1.8 T C + 32 Fahrenheit Formula
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12 T C is obtained by rearranging equation for T F. T F = 1.8T C + 32 Subtract 32 from both sides. T F - 32 = 1.8T C ( +32 - 32) T F - 32 = 1.8T C Divide by 1.8 =°F - 32 = 1.8 T C 1.8 1.8 T F - 32 = T C 1.8 Celsius Formula
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13 Solving A Temperature Problem A person with hypothermia has a body temperature of 34.8°C. What is that temperature in °F? T F = 1.8 T C + 32 T F = 1.8 (34.8°C) + 32° exact tenth's exact = 62.6 + 32° = 94.6°F tenth’s
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14 The normal temperature of a chickadee is 105.8°F. What is that temperature on the Celsius scale? T C = (T F - 32°) 1.8 =(105.8 - 32°) 1.8 =73.8°F = 41.0°C 1.8° Problem:
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15 A pepperoni pizza is baked at 455°F. What temperature is needed on the Celsius scale? T F - 32° = T C 1.8 (455 - 32°) = 235°C 1.8 Problem:
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16 On a cold winter day, the temperature is –15°C. What is that temperature in °F? T F = 1.8 T C + 32 T F = 1.8(–15°C) + 32° = – 27 + 32° = 5°F Note: Be sure to use the change sign key on your calculator to enter the minus – sign. 1.8 x 15 +/ – = –27 Problem:
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17 Kelvin temperature scale has 100 units between freezing and boiling points of water. 100 K = 100°Cor 1 K = 1°C is obtained by adding 273 to Celsius temperature. T K = T C + 273 Contains lowest possible temperature, absolute zero (0 K). 0 K = –273°C Kelvin Temperature Scale
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18 What is normal body temperature of 37°C in kelvins? T K = T C + 273 = 37°C + 273 = 310. K Problem:
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19 States of Matter : Solids Solids have a definite shape. a definite volume. particles that are close together in a fixed arrangement. particles that move very slowly.
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20 States of Matter: Liquids Liquids have an indefinite shape, but a definite volume. the same shape as their container. particles that are close together, but mobile. particles that move slowly.
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21 States of Matter: Gases Gases have an indefinite shape. an indefinite volume. the same shape and volume as their container. particles that are far apart. particles that move very fast.
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22 Summary of the states of matter Solid Liquid Gas
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23 Changes of state: Melting and Freezing A substance is melting while it changes from a solid to a liquid. is freezing while it changes from a liquid to a solid. such as water has a freezing (melting) point of 0°C.
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24 Changes of state: Sublimation Sublimation occurs when particles change directly from solid to a gas. is typical of dry ice, which sublimes at -78 C. takes place in frost-free refrigerators. is used to prepare freeze- dried foods for long-term storage.
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25 Changes of state: Evaporation and Condensation Water evaporates when molecules on the surface gain sufficient energy to form a gas. condenses when gas molecules lose energy and form a liquid.
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26 Changes of state: Boiling At boiling, all the water molecules acquire enough energy to form a gas. bubbles appear throughout the liquid.
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27 Heating Curve A heating curve Illustrates changes of state as solid is heated. uses sloped lines to show an increase in temperature. uses plateaus (flat lines) to indicate a change of state.
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28 Cooling Curve A cooling curve illustrates the changes of state as a gas is cooled. uses sloped lines to indicate a decrease in temperature. uses plateaus (flat lines) to indicate a change of state.
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