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Heat Propagation . Liceo Da Procida. Lesson 2. Reminder. Last time we learned about kinetic theory of matter Which state of matter has the fastest moving particles? How do we make the particles move even more quickly?
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Heat Propagation • Liceo Da Procida Lesson 2
Reminder • Last time we learned about kinetic theory of matter • Which state of matter has the fastest moving particles? • How do we make the particles move even more quickly? • Today, we will explore the different ways to transfer heat to a substance
Concept Question What is heat? A) A measure of how hot or cold something is. B) A basketball team from Boston. C) Energy transferred due to a temperature difference. D) A quantity measured in degrees Kelvin.
Answer What is heat? A) A measure of how hot or cold something is. B) A basketball team from Boston. C) Energy transferred due to a temperature difference. D) A quantity measured in degrees Kelvin.
How does heat travel? • Heat energy always travels from HOT to COLD • When the sun shines on the Earth, does energy travel from the sun to the Earth or from the Earth to the sun? • If I burn my hand by touching the stove, does energy travel from the stove to my hand or from my hand to the stove? • If I take a cold shower to cool down, does energy travel from the water to my body or from my body to the water?
Kinds of Heat Propagation • 3 types • Heat Propagation Rap • Conduction • Convection • Radiation
Conduction • What happens to the roof of your mouth if you eat a piece of pizza before it cools down? • If you have coffee in a mug does the outside of the mug feel hot or cold? • Two objects touching = CONDUCTION • Two objects = pizza and your mouth, two molecules in mug
Conduction • Different materials conduct heat differently • Which will get hotter, a metal spoon or a wooden spoon in a pot of boiling water? • Thermal conductivity – How well a material can conduct heat vs.
Concept Question • Would you use a material with high or low thermal conductivity in the walls of your house to keep heat in during the winter? • High thermal conductivity • Low thermal conductivity
Concept Question • Would you use a material with high or low thermal conductivity in the walls of your house to keep heat in during the winter? • High thermal conductivity • Low thermal conductivity
Conduction • The thermal conductivity of a material is measured in W/m*C (ex: for aluminum, k = 250 W/m*C) • We can measure how much heat has gone through a bar based on the following equation: • Q = k*A*ΔT*Δt/L • A = cross-sectional area, T = temperature, t = time, L = length
Conduction • Q = k*A*ΔT*Δt/L • ΔT = T1 – T2 • Δt = elapsed time • Q = amount of heat transferred
Practice Problems • Q = k*A*ΔT*Δt/L • A 2 m copper rod with a cross-sectional area of 0.1 m2 has one end at 80C and the other at 50C. The thermal conductivity of copper is 370 W/m*C. How much heat is transferred in 10 seconds? • How much heat is transferred in an hour through a 5 m long copper rod with a square cross-sectional area, where each side measures 0.1 m? One end of the rod is at 300K and the other is at 320K
Convection • Which way does a flame point on a candle? • Right after you burn yourself, what should you do? • Fluids flowing = CONVECTION • Fluid = liquid (i.e. water), air
Convection • Two parts to convection: • Hot air always travels UP (ex: hot air balloon) • Flowing liquids transfer heat (ex: run something frozen under warm water to heat it up) • Cool convection video!
Convection • Remember, FLUIDS MOVING (air, liquid) = CONVECTION!
Radiation • Where do you normally hear the word “radiation?” • Cell phones, X-rays, nuclear power plants, etc. • What do all these have in common? • Two objects that DON’T touch • Energy transferred through electromagnetic waves
Radiation • If you light a campfire and sit a few feet from it, what do you feel? • If you put something in a microwave, does it come out hotter or colder? • In heat propagation, radiation means heat transfer between two objects that DON’T touch • Heat energy is transferred through electromagnetic waves • Radiation experiment!
Radiation • We can predict how much heat energy an object will give off based on its temperature! • The Stefan-Boltzmann Law gives us the amount of heat energy radiated per unit surface area per second (flux) • Think: would a higher temperature mean an object gives off more or less heat energy?
Stefan-Boltzmann Law • THE EQUATION: F = σT4 • F = heat propagation flux (energy radiated per unit surface area per second) • σ = Stefan-Boltzmann constant (5.67 * 10-8 J/s*m2*K4) • T = temperature (but be careful! Temperature must be measured in Kelvin, not degrees Celsius or Fahrenheit) • Does higher temperature mean more or less heat propagation?
Practice Problems • Remember: F = σT4 • A star’s temperature is 5000K. According to the Stefan-Boltzmann law, how much energy is radiated into space per second by each square meter of the star’s surface? • If the star is a perfect sphere with radius 640000000 m, what is the total power output of the star?
Examples from earlier • Conduction, Convention, Radiation • Sun shining on Earth • Radiation • Burning my hand on the stove • Conduction • Taking a cold shower • Convection
Heat transfer applet • http://www.teachersdomain.org/asset/lsps07_int_heattransfer/
More Examples • For each of the following examples, what kind of heat transfer is it (and why)? • Hot water rises in a boiling pot • An incandescent light bulb feels warm when your hand is a few centimeters away • A chocolate bar melts in my hand on a hot day • A firefighter uses a hose of water to put out a fire • A crazy man walks across burning coals
More Examples • I ride on a waterslide to cool down on a hot day • You feel the coolness of a breeze on a warm day • The cold outside makes the inside of the windows feel cold • Venus is much hotter than Saturn • You stir fry vegetables in a pan • You put your finger in a cup of hot coffee