Construct a table for your raw data from the heat capacity lab

Slides:

Advertisements

Similar presentations

Heat naturally flows from high temperature to low temperature.

Advertisements

Specific Heat and Calorimetry Date, Section, Pages, etc. Mr. Richter.

Calorimetry General Chemistry 101/102 Laboratory Manual University of North Carolina at Wilmington.

CHEM 1011 Calorimetry: The Determination of the Specific Heat of a Metal.

Measuring and Using Energy Changes Section 20.2

What is the relationship between heat and temperature?

Calorimetry Chapter 5. Calorimetry Since we cannot know the exact enthalpy of the reactants and products, we measure  H through calorimetry, the measurement.

LAB: Specific Heat of a Metal. Prelab question: MetalSpecific Heat (J/g ºC) Aluminum0.91 Iron0.46 Lead0.13 Silver0.23 Tin0.21 Titanium0.54 Zinc0.39 A.

Things to ponder Why does it take Lake Sammamish so long to warm up? How do fireworks work? What are you feeling when you feel warm? What is energy? What.

Warm-up… EXPLAIN HOW THE ICE CREAM LAB WORKS

Part One Heat and Temperature.

Thermochemistry Unit Chapter 17. Problem #1 (page 664): A 92.0 g sample of a substance, with a temperature of 55 o C, is placed in a large scale polystyrene.

Calorimetry and Specific Heat. Heat and Temperature Basics Temperature does not depend on the amount If two samples of identical material are at the same.

Chapter 12 Changes in Temperature and Phases. Goals Perform calculations with specific heat capacity. Interpret the various sections of a heating curve.

Measuring and Using Energy Changes Section Main Idea Energy stored in chemical bonds can be converted to other forms and used to meet the needs.

Heat and Temperature 9+.

Heat And Specific Heat. Heat Energy that is transferred from one body to another because of temperature Unit 1 calorie (cal) – heat needed to raise 1g.

Introduction In the middle Ages, defenders of a castle sometimes poured hot liquids down onto invaders who tried to storm the fortress walls. The liquid.

Heat and Temperature. The difference Heat – the energy that flows from hot to cold. Measured in Joules (J) or calories (cal). Temperature – measure of.

AP Physics Heat Capacity Lab Objective : The objective of this lab exercise is to use calorimetry as well as the concepts of heat capacity and exchange.

Chapter 15.4 & 15.5 ENTHALPY AND CALORIMETRY.  Thermochemistry = heat changes that accompany chemical reactions and phase changes  Energy released 

Specific Heat Capacity. deals with heat changes that occur during chemical reactions deals with heat changes that occur during chemical reactions Heat.

U3 S1 L3 Constant Pressure Calorimetry. Textbook Readings MHR pages : The Technology of Heat Measurement Textbook Practice Items MHR pages :

Specific Heat & Phase Changes. Specific Heat ____________ (c) – the amount of heat required to raise the temperature of 1 g of a substance 1 °C The units.

SPECIFIC HEAT CAPACITY Thermal Energy Transfer. H EAT C APACITY Explain the following diagram.

CHM 101/102 Laboratory Manual Calorimetry. CHM 101/102 Laboratory Manual Calorimetry Background Background  The thermal energy (q) transferred when an.

Heat Transfer Problems – Case #1 Silver Spoon Steel Spoon Boiling Water Baths at 100 o C m = 10.0 g s = J/ g o C s = 0.51 J/ g o C Ti = 25.0.

1 This graph can be divided into 3 distinct regions, Identify them and explain what is occurring in each segment.

CHANGES IN TEMPERATURE AND PHASE Holt Chapter 10, Section 3.

Chapter 19 Heat and the First Law of Thermodynamics

SPECIFIC HEAT OF A METAL

Heat Transfer Problems

© 2012 Pearson Education, Inc.

Chapter 11 Notes Part II Calorimetry.

Specific Heat IB1 Chemistry

Specific Heat Capacity Practical

PERCENT OF WATER IN COPPER II SULFATE PENTAHYDRATE

(also known as _________)

Chemistry Notes Calorimetry.

Heating/Cooling Curve & Energy Calculations

Welcome to the MATH.

Enthalpy of Solution.

Chapter 9 Defining Temperature

Heat Exchange During Physical Changes

Day 29 The weatherman says today’s relative humidity is 70 percent. What does that mean? The air is 70 percent saturated. Can warm air hold more, less,

Chapter 19 Heat and the First Law of Thermodynamics

Specific Heat Practice

Specific Heat Capacity & Calorimetry

VOCAB REVIEW… Potential Energy - energy due to position or composition

Specific Heat Capacity

Bell Work 1 / Kinetic Theory of Matter

More Calorimetry: Mixing Liquids

Heat Capacity of Metals

Lesson 1 LT: I can perform calculations based on the concepts involving heat.

qsurroundings = -qsystem

Specific Heat Calculations

Thermal Energy.

Make a model-melting ice on two blocks

Thermochemistry.

Calorimetry CP Unit 9 Chapter 17.

qsurroundings = -qsystem

Calorimetry Conservation of thermal energy: Final Temperature: m1 m2

Calorimetry Conservation of thermal energy: Final Temperature: m1 m2

Kinetic and Potential Energy on the Nanoscale

Calorimetry .

Presentation transcript:

Construct a table for your raw data from the heat capacity lab Bellwork – 1/17/17 Construct a table for your raw data from the heat capacity lab

Raw Data – Example ( not finished ) Initial Mass ( g ) Initial Ice bath Temps ( oC ) Initial Hot Water Temps (oC ) Final Temps (oC ) Unknown #1 200.02 5.4 oC 100.7 oC 15.2 oC Unknown #2 Ice Bath 150

H Physics Heat Capacity Lab Objective : The objective of this lab exercise is to use calorimetry as well as the concepts of heat capacity and exchange to determine the identity of two unknown metal objects.

Experimental Procedure [ bear in mind you may need to add more detail or even steps ] 1] With two unknown objects completely submerged in water, heat the water to a vigorous boil 2] Measure temperature of boiling water – this is also initial temperature of unknown objects before transferring to cold water 3] Have cold water handy ( poured from an ice bath – but only use the water as we want to keep this simple and ice does not have the same specific heat capacity value as water ) and pour a certain volume of this water into the inner cup of a calorimeter 4] Measure temperature of cold water inside calorimeter – this is your initial temperature of the cold water before adding hot objects 5] Remove one hot unknown object from boiling water, shake water off of it briefly, then add to cold water in calorimeter.

Experimental Procedure [ bear in mind you may need to add more detail or even steps ] 6] Measure equilibrium temperature of cold water plus unknown object 7] Repeat steps for unknown object #2 8] measure the mass of each unknown object, dry

Analysis Procedure [ bear in mind you may need to add more detail or even steps ] 1] Using the known value of the specific heat capacity of water, calculate how much heat was transferred to the cold water from each hot object, separately 2] The amount of heat found in step 1] is the same amount of heat that the unknown object lost 3] Knowing this as well as the relevant temperature change and the unknown’s mass, the specific heat capacity of each unknown can be calculated 4] Compare these numbers to values in a table of known specific heat capacities and try to decide what material each of the unknowns is made of

Questions ( Discuss in “Conclusion” ) What types of error may have occurred during this lab ( more detail than “human error” )? If you were to conduct this experiment again, how could you improve on your accuracy? If you find compare your experimental values to a table other than that in the text, cite the source ( website, etc. )