Maximum score 16*6.25=100 points Average 50.8% Correct answers:

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Midterm Exam 2 Maximum score 16*6.25=100 points Average 50.8% Correct answers: 40% 47% 40 16% 49% Count 20 0 0 20 40 60 80 100 score 54% 37% 70% 60% 22% 78% 78% 65% 40% 45% 33% 48%

This problem only 16% of students solved correctly: W F x 1N 1m 0.5N 1m 1N 1m 0. 5J x

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Doppler Effect Summary When source is coming toward you (v s > 0) Distance between peaks decreases Frequency increases When source is going away from you (v s < 0) Distance between peaks increases Frequency decreases 10

Lecture 24 Thermodynamics, Heat and temperature Heat and Temp http://candidchatter.files.wordpress.com/2009/02/hell.jpg

Temperature: a measure of the average kinetic energy of an object.

Three most commonly used temperature scales: 1. Celsius scale 2. Fahrenheit scale 3. Kelvin scale Temperature scales Water freezes at: Water boils at: Celsius: 0 ºC 100 º C Fahrenheit: 32 º F 212 º F Kelvin: 273.15 K 373.15 K Most commonly used temperature scale in the world is Celsius scale.

Temperature conversion Following conversion Celsius Fahrenheit Fahrenheit Celsius Celsius Kelvin 9 T F T 5 5 T C T 9 C F 32 32 T T 273.15 Why 273.15? K C It is believed that 0 K (-273.15 ºC) is the absolute coldest that anything can get. 0 K represents absolute zero.

Temperature (K) 10 9 10 8 10 7 10 6 10 5 10 4 10 3 10 2 10 1 10 0 Hydrogen Bomb Interior of the Sun Surface of the Sun Copper melts Water freezes Liquid Helium

Kelvin

Quiz How would you dress if the temperature was 70 o C? A. Doesn t matter I m dead from heat exposure. B. Shorts, T-shirt, and flip-flops. C. Pants, jackets, and shoes. D. Winter coat, knitted hat, and snow pants. E. Doesn t matter I m dead from frost bite.

Quiz How would you dress if the temperature was 40 o C? A. Doesn t matter I m dead from heat exposure. B. Shorts, T-shirt, and flip-flops. C. Pants, jackets, and shoes. D. Winter coat, knitted hat, and snow pants. E. Doesn t matter I m dead from frost bite.

Quiz How would you dress if the temperature was 100 K? A. Doesn t matter I m dead from heat exposure. B. Shorts, T-shirt, and flip-flops. C. Pants, jackets, and shoes. D. Winter coat, knitted hat, and snow pants. E. Doesn t matter I m dead from frost bite.

Thermal Expansion *Consequence of change in average separation between costituent atoms in an object L T L o

Coefficient of Thermal Expansion

Example A steel railroad track has a length of 30.000 m when the temperature is 0.0 o C. What is the length when the temperature is 40.0 o C? L L o T 12x10 6 ( 1 K ) *(30.000m)*(40.0K) L 0.014m L new L o L 30.014

DEMO 3A-03 Bimetallic Strip

Example The ends of the rail are rigidly clamped at 0.0 o Cso expansion is prevented. What is the thermal stress set-up in the rails if the temperature increases to 40.0 o C? F A Y L N 0.014 20x10 10 L o m 2 30.000 N 9.33x107 m 2 If the cross-sectional area of the rail is 30.0 cm 2 what is the force? F A * F A 9.33x107 N m 2 m 2 *(30cm2 * 10 4 cm ) 2 2.8x105 N

Internal Energy The internal energy of a system is the total energy of all of the molecules in the system except for the macroscopic kinetic energy and external potential energy

Internal Energy The average translational energy of a single atom depends only on the gas temperature & is given by: K tr 3 2 kt This translational energy is part of what we call internal energy

Zeroth Law of Thermodynamics: *Two systems individually in thermal equilibrium with a third system are in thermal equilibrium with each other. Implications: *Temperature is an indicator of thermal equilibrium. *All parts of a system must be in thermal equilibrium if the system is defined by a single temperature.

The wooden block and the metal block have been sitting in this room at temperature T room for quite a while. What are the temperatures of the wooden and the metal block? A. Wood > T room, T metal < T room B. T wood = T room, T metal < T room C. T wood = T room, T metal = T room D. T wood = T room, T metal > T room E. None of the above.

A common misconception objects that feel cool like metals and smooth stones are usually not cooler than objects (like wood) that do not feel cool. Q T body 37 C T bar 25 C The sensation of coolness and hotness is actually the rate of heat transfer not the temperature.

Energy transferred by heat W out W out Q in Heat, Q is energy transferred between two objects due to a difference in temperature, T.

Quiz Which of these are reasonable units for heat, Q? A. J B. N.m C. kg.m 2 /s 2 D. All of the above and none of the below. E. None of the above. Heat, Q is energy transferred between two objects due to a difference in temperature, T.

Units of Heat 1 cal = amount of heat needed to raise 1 gram of water by 1 o C 1 kcal = 4.186 Joules

Example A student eats a 2000 Calories dinner and wishes to do the equivalent work in the gym by lifting a 50 kg barbell. How many times must he raise it to expend this much energy? Assume he raises it 2.00 m each time he lifts it & regains no energy when he drops it to the floor. Convert calories in dinner to Joules: 2x10 6 cal 2x10 6 cal 4.186J 8.37x10 6 J 1cal Equate work done against gravity with energy W lifting nmgh n W mgh 8.372 6 J 50kg *9.81 m s 2 *2.00m 8534times If lift every 5 seconds: 8543times * 5s time * 1hr 3600s 11.86hr

Energy transferred by heat U Q in U is called the internal energy.

Energy transferred by heat could go into work or internal energy W out U Q in W out U Q in

The First Law of Thermodynamics is just Conservation of Energy Any change in = Energy added or Energy taken away E U Q W in out Involves changes In center of mass Involves internal variables, like T Heat Involves T Work Involves F

Since Q and W are the energy transferred into a system from the surroundings, it is important to carefully define the system and the surrounds. It is often times useful to actually draw a box and make sure that Q and W are crossing the boundary. Wout Wout 0 0 0 0 E U Q in W out E U Q in W out

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