Presentation is loading. Please wait.

Presentation is loading. Please wait.

Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Purpose Understand how the total energy in a closed.

Published byShawn Bond Modified over 8 years ago

Similar presentations

Presentation on theme: "Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Purpose Understand how the total energy in a closed."— Presentation transcript:

1 Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Purpose Understand how the total energy in a closed system is conserved during heat exchange. Learn how to determine specific heat capacities of certain materials.

2 Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature The Heat Capacity of an Object Amount of heat (energy) that needs to be added to the object in order to raise its temperature by 1 degree Kelvin. Heat added (in Joules) Heat capacity (in Joules/Kelvin) Change in Temperature (in Kelvin) If Q > 0 then T final > T initial (temperature rises) If Q < 0 then T final < T initial (temperature drops)

3 Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature The heat capacity depends on:  Type of Material  Amount of the material (more water has more heat capacity……… you need more energy to raise its temperature……… The specific heat capacity is defined as and has units of or The specific heat capacity only depends on the material, not on the amount of the material.

4 Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature The Specific Heat Capacity Amount of heat (energy) per unit mass that needs to be added to a material in order to raise its temperature by 1 degree Kelvin. Heat added (in Joules) Specific Heat capacity Change in Temperature (in Kelvin) mass of the object

5 Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Example and Implications of Specific Heat Capacity A calorie is defined as the amount of heat that needs to be added to 1 gram of water in order to raise its temperature by 1 degree Kelvin. Water has a relatively high heat capacity, which is important in biology and engineering:  Prevents your body (= mostly water) from heating up too quickly during exercise (an apple that contains 60Kcal of energy has the potential to raise the temperature of a 60Kg person by only  T = Q/(c*m) = 60000cal/(1 cal g -1 K –1 * 60000g)=1Kelvin (assuming all the energy in the apple would go to heat and none to work performed)  Is a good coolant for engines (can absorb a lot of heat without having its temperature rise a lot.

6 Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Heat Transfer Between Two Objects (assume no heat is lost to the environment) m 1 c 1 T 1, initial T 2, initial m 2 c 2 Before contact: After reaching thermal equilibrium they both have the same temperature m 1 c 1 T 1, final T 2, final m 2 c 2 T 1, final = T 2, final = T final Given: m 1, m 2, c 1, c 2, T 1,initial, T 2,initial (T final unkown)

7 Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Because no heat is lost to (or gained from) the environment: The originally colder object gains energy (a positive Q) The originally hotter object looses energy (a negative Q)  Solve for T final

8 Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Activity 1: Calibration of Temperature Probe Alcohol thermometer (read off temperature here) Temp. Probe 750 Interface Use ice bath and warm water bath for the two calibration points

9 Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Activity 2: Specific Heat Capacity / Power Output of Heater Temp. Probe 750 Interface Styrofoam cup filled with 150 ml water. Make sure heater doesn’t touch styrofoam !!!!! Computer: Data Studio Switches Heater on/off Heater Switch Box Red LED: Heater is ON Make sure this is plugged in the right way (ground to ground); ground is marked on tape Stand + clamp heater

10 Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Activity 2: Specific Heat Capacity Switch heater on and monitor the rise of the temperature time Temperature Heater on Heater off TT tt Note: The temperature may still rise after you turn the heater off (it gets turned off when you hit the “STOP” button in Data Studio). Problem: Data Studio stops monitoring the temperature after “STOP” is hit. Solution: After you hit the “STOP” button, unplug the main power (outlet) from the heater box. Then hit “START” again to monitor the temperature without further heating. Second run with heater power disconnected from outlet. First run with heater power connected.

11 Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Activity 2: Specific Heat Capacity Determine power output of the heating element. Power = Energy / time = c m  T /  t Compare your result to the power rating written on the heating element. This is the heat/energy given off to the water ( = “Q” )

12 Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Activity 3: Measure Specific Heat Capacity of Isopropyl Alcohol Design an experiment to measure c isopropyl alcohol Use your measured power rating of the heating element. DO NOT DRAIN THE ISOPROPYL ALCOHOL INTO THE SINK !!!!! It is illegal to do that and we also do not want to waste the alcohol – it costs money. Instead, please pour it back into the container from which you got it.

13 Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Activity 4: The Transfer of Heat Caution: This experiment uses liquid nitrogen, which is extremely cold. Follow the safety instructions in your lab manual!!!! Liquid nitrogen (LN2) Water at Room Temperature Brass disc on a string Step 1: Cool brass in the LN2 (wait until bubbling stops) Step 2: Put cold brass (-197ºC) into water. Step 3: Monitor temperature

14 Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Activity 4: The Transfer of Heat Step 4: Determine the specific heat capacity of brass Step 5: Compare your value of c brass to that in the literature (you can surely find that value on the internet)

15 Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Hints Do not be surprised if the power rating of the heater element disagrees with what you measured. When we measured the resistance of the heating elements with wires, some were as high as 2 Ohms. Therefore, a more realistic power rating may be about …and it may be even lower if the supplied voltage is less than 12 Volts (on some of the heater boxes)  That’s why you need to use your measured power rating in Activity 3, not the official rating.

Download ppt "Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Purpose Understand how the total energy in a closed."

Similar presentations

Heat naturally flows from high temperature to low temperature.

Heat naturally flows from high temperature to low temperature.
As close to chemistry as we can get

As close to chemistry as we can get
CONCEPTUAL PHYSICS HEWITT, 1999 BLOOM HIGH SCHOOL Chapter 21 Temperature, Heat and Expansion.

CONCEPTUAL PHYSICS HEWITT, 1999 BLOOM HIGH SCHOOL Chapter 21 Temperature, Heat and Expansion.
Calculations involving Heat Themes: Conservation of Energy Thermal Equilibrium.

Calculations involving Heat Themes: Conservation of Energy Thermal Equilibrium.
Chapter 12 Temperature and Heat.

Chapter 12 Temperature and Heat.
Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Purpose Understand how the total energy in a closed.

Physics 1809 Minilab 2: Heat and Temperature Physics 1809: The Relationship Between Heat and Temperature Purpose Understand how the total energy in a closed.
Calorimetry General Chemistry 101/102 Laboratory Manual University of North Carolina at Wilmington.

Calorimetry General Chemistry 101/102 Laboratory Manual University of North Carolina at Wilmington.
Notes on. Energy Is the capacity to do work or to produce heat Forms: Kinetic energy = energy of motion Potential energy = energy of position Thermal.

Notes on. Energy Is the capacity to do work or to produce heat Forms: Kinetic energy = energy of motion Potential energy = energy of position Thermal.
PHYSICS 231 Lecture 27: Heat & Heat exchange

PHYSICS 231 Lecture 27: Heat & Heat exchange
PHY 231 1 PHYSICS 231 Lecture 27: Heat & Heat exchange Remco Zegers Walk-in hour: Thursday 11:30-13:30 am Helproom.

PHY PHYSICS 231 Lecture 27: Heat & Heat exchange Remco Zegers Walk-in hour: Thursday 11:30-13:30 am Helproom.
WHAT ARE SOME OF THE WAYS THAT HEAT ENERGY CAN BE TRANSFERRED? 1) CONDUCTION – IF TWO OBJECTS ARE IN CONTACT, THERMAL ENERGY CAN BE TRANSFERRED THROUGH.

WHAT ARE SOME OF THE WAYS THAT HEAT ENERGY CAN BE TRANSFERRED? 1) CONDUCTION – IF TWO OBJECTS ARE IN CONTACT, THERMAL ENERGY CAN BE TRANSFERRED THROUGH.
Chapter 5 TEMPERATURE AND HEAT Dr. Babar Ali.

Chapter 5 TEMPERATURE AND HEAT Dr. Babar Ali.
Energy Content of Food In this unit you will gain some experience with 2 types of calorimeters and the PSL equipment.

Energy Content of Food In this unit you will gain some experience with 2 types of calorimeters and the PSL equipment.
Unit 12: Temperature and Thermal Energy Thermodynamics is the study of heat transformations into other forms of energy. ◦ Used to develop higher performance.

Unit 12: Temperature and Thermal Energy Thermodynamics is the study of heat transformations into other forms of energy. ◦ Used to develop higher performance.
HeatHeat.  When two objects at different temperatures are put into contact, heat spontaneously flows from the hotter to the cooler one. If kept in contact.

HeatHeat.  When two objects at different temperatures are put into contact, heat spontaneously flows from the hotter to the cooler one. If kept in contact.
HEAT EXCHANGE The exchange of thermal energy is simply referred to as heat. If an object rises/falls in temperature it has gained/lost thermal energy.

HEAT EXCHANGE The exchange of thermal energy is simply referred to as heat. If an object rises/falls in temperature it has gained/lost thermal energy.
Temperature, Heat, and Expansion

Temperature, Heat, and Expansion
Chapter 17. Heat is the amount energy transfer due to a temperature difference. All other forms of energy transfer are classified as work. In the picture.

Chapter 17. Heat is the amount energy transfer due to a temperature difference. All other forms of energy transfer are classified as work. In the picture.
THE QUANTITY OF HEAT   The thermal energy lost or gained by objects is called heat. One calorie (cal) is the quantity of heat required to change the temperature.

THE QUANTITY OF HEAT   The thermal energy lost or gained by objects is called heat. One calorie (cal) is the quantity of heat required to change the temperature.
TEMPERATURE INTERNAL ENERGY PER UNIT MOLECULE

TEMPERATURE INTERNAL ENERGY PER UNIT MOLECULE

Similar presentations

Ads by Google