Determining the Molar Heat of Combustion for Paraffin

Slides:

Advertisements

Similar presentations

Enthalpy. Specific Heat Capacity Definition: The HEAT ENERGY required to raise the TEMPERATURE of 1kg of substance by 1 o C. e.g. for water C= 4.18kJ.

Advertisements

Calorimetry & Enthalpy Changes

Thermochemical Equations & Calorimetry

Practicing Calorimetry. At the end of this lesson, you will be able to 30–A1.4k write balanced equations for chemical reactions that include energy changes.

Calorimetry: :Measuring Heat

Calorimetry Heat of combustion Heat capacity Solution calorimetry Calibration factor Bomb calorimetry.

Enthalpy and Calorimetry Chapter 5 part 2 Enthalpy H is heat under constant pressure or H=q P H=E+PV And therefore ΔH= ΔE+P ΔV ΔH=H final -H initial.

Enthalpy of Combustion

Enthalpy of Combustion Calculations. Example Q. 4.6g of ethanol (C 2 H 5 OH) is burned. The energy released raised the temperature of 0.5kg of water by.

Aim: How to measure molar heat of solution DO NOW: Get into groups of 3 or 4 and compare your homework. You have 5 minutes.

Specific Heat and Calculating Heat Absorbed

Thermochemistry THERMOCHEMISTRY THERMOCHEMISTRY, is the study of the heat released or absorbed by chemical and physical changes. 1N = 1Kg.m/s 2, 1J =

Reaction Energy and Reaction Kinetics Thermochemistry.

Thermochemistry.

1) vocab word--the quantity of heat needed to raise the temperature of 1 g of water 1°C 2) vocab word--the amount of energy required to raise the temperature.

Energetics (a) Explain that some chemical reactions are accompanied by energy changes, principally in the form of heat energy; the energy changes can be.

Thermochemistry Chapter 6 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

ENTHALPY, HESS’ LAW, AND THERMOCHEMICAL EQUATIONS.

Purpose: Have you ever wondered why some foods give you more energy than others? Background Information: Calorimetry is the study of finding the amount.

Combustion Reaction. Heat of Reaction (q) C 6 H 14(l) + O 2 (g)  CO 2 (g) + H 2 O (g) Energy required to break bonds Energy released as bonds form.

Molar Enthalpies.  use proper scientific terminology to describe molar enthalpies  calculate molar enthalpies  Calculate molar enthalpies using the.

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

CHAPTER 17 THERMOCHEMISTRY. ENERGY Energy is the capacity to do work or to supply heat. Various forms of energy include potential, kinetic, and heat.

Lab Procedures and Techniques

Ch. 11 Thermochemistry: Heat and Chemical Change

Thermochemistry Chapter 6 (semester ) 6.1 The Narure of Energy and Types of Energy 6.2 Energy Changes in Chemical Recations 6.3 Introduction to Thermodynamics.

Everyday Calorimetry. whenever we heat water, its like using a calorimeter calorimeters are used to compare quantities of different fuels that burn to.

Unit A Thermochemical Changes. The study of energy changes by a chemical system during a chemical reaction is called thermochemistry. Calorimetry is.

Thermochemistry Section 2: Enthalpy and Calorimetry.

READING for Thursday: 7.3 – 7.4 READING for Thursday: 7.3 – 7.4 HOMEWORK – DUE TUESDAY 10/20/15 HOMEWORK – DUE TUESDAY 10/20/15 HW-BW 7.1 (Bookwork) CH.

Enthalpy (H) is used to quantify the heat flow into or out of a system in a process that occurs at constant pressure. Enthalpy is defined as H = E + PV.

Enthalpy The Meaning of Enthalpy. 1. Enthalpy is a state function with the symbol H. H = E + PV E is the internal energy of the system, P is the pressure.

1. Definition Heat flow in a system SymbolH Like internal energy, the change in enthalpy is important State function – measure of its current conditions.

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.

Exothermic  When heat is released (given off) by the system into the surroundings, the process is exothermic  H = H final − H initial  H = H products.

Challenge Problem If the density of an alloy of Al and Cd is 6.08g/cm 3, what is the % by mass and the % by volume of Al? The density of Al=2.70g/cm 3.

Quiz 1.In an experiment g of Mg was burnt to heat up 125 g of water, the Initial temperature for water is 25.0 o C, the final temperature is 72.3.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Thermochemistry Virtually every chemical reaction is accompanied.

Specific Heat Capacity Every substance has it’s own specific heat because it has a different arrangement of atoms SubstanceSpecific Heat (J/g°C) Water4.18.

Molar Enthalpy Recall that when we write a thermochemical equation the coefficients represent moles of particles Therefore, 1 H 2(g) + ½ O 2(g)  1 H 2.

Chemistry Unit 8 Thermochemistry Chapter The Flow of Energy Energy Transformations – Goal 1 Chemical Potential Energy Energy stored in chemical.

TO LIVE IS THE RAREST THING IN THE WORLD. MOST JUST EXIST. THAT IS ALL.

Calories from food Chapter 12. Calories Measurement of the energy content in a substance = heat Calorie = E require to raise the temperature of 1 gram.

Topics 5 and 15. Hess’s Law Calorimetry Enthalpy Enthalpy of Formation Bond Energy.

Heat energy is measured in units called joules or calories. 1 calorie is the amount of heat energy needed to raise the temperature of 1.0 g (mL) of water.

Introduction to Chemical Energy The Role of Chemical Bonds.

Enthalpy & Thermochemical Equations Thornburg 2014.

 Different substances require different amounts of heat to change their temperature.  Objects that require more energy have a high heat capacity like.

5.2 Calorimetry and Enthalpy

16.1 Thermochemistry. POINT > Define temperature and heat POINT > Define specific heat POINT > Describe enthalpy of reaction POINT > Define enthalpy of.

5.2 Calorimetry and Enthalpy. Measuring Energy Changes Calorimetry is the experimental process used to measure the transfer of thermal energy. – A bomb.

Ch.1: Matter and Change Introduction to Thermochemistry.

Question 49 The combustion of .1584g benzoic acid increases the temperature of a bomb calorimeter by 2.54°C. Calculate the heat capacity of this calorimeter.

Lecture 5.3 Specific Heat.

Determining Enthalpy of Rxn by Experiment

Specific Heat Capacity

11.3 – NOTES Combustion.

Look at the graph below and identify the following: Is this endothermic or exothermic? Activation energy? Enthalpy of the reactants? Enthalpy of the products?

Enthalpy and Calorimetry

Energy Content in Foods

Lesson # 2: Enthalpy Calculations

Change in Enthalpy State function ΔH = q at constant pressure

Measuring Enthalpy Changes

Specific Heat, Heating, Cooling

Chemical Thermodynamics

Specific heat capacity (a.k.a. Specific heat)

Ch.17: Reaction Energy and Reaction Kinetics

ENTHALPY OF COMBUSTION ΔHc

What amount of heat is required to increase the temperature of 75

Chemistry Quiz Ch 11 Section 11-1 & 11-2

Presentation transcript:

Determining the Molar Heat of Combustion for Paraffin Background: similar to specific heat capacity, Molar Heat is the amount of energy required to raise one mole of the substance 1°C. Water can be used to trap the energy released in the form of heat from the candle wax. Molar heat: J/mol°C

Data to collect: Volume of water _____ Initial mass of candle _________ Final mass of candle _________ Mass burned _________ Initial temperature of water _________ Final temperature of water ________ ΔT __________ Class averages: Mass of water used _______ Mass of candle wax burned __________ Change in temperature (ΔT) ________

Calculations and Questions: What mass of water was used in this lab (note: the density of water is 1 g/mL)? Using individual and class averages, calculate the heat absorbed by the water (assume c = 4.18 J/g°C). Assume that the heat absorbed by the water is equal to the heat given off by the candle. Calculate the amount of heat released per gram of wax (i.e. the specific heat of combustion). Paraffin wax has the formula C25H52. Calculate the amount of heat released per mole of wax (i.e. calculate the molar heat of combustion for paraffin). Write the thermochemical equation that represents the combustion of paraffin wax. In question three, 4.18 J/g°C was used as the specific heat capacity of the calorimeter. Suggest a reason why this is not entirely accurate. What other sources of error are there in this lab?

Accepted Molar Enthalpy (Heat) of Combustion for Paraffin 41.5-42.0 KJ/g = 14,600-14,800 KJ/mol 12-15 MJ/mol = 10/10 10-11.9 MJ/mol = 9/10 8-9.9 MJ/mol = 9/10 Below 8 MJ/mol = 7/10