How are they related?. What is Energy? Defined as the ability to do work or create heat. Many...
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Transcript of How are they related?. What is Energy? Defined as the ability to do work or create heat. Many...
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CHEMISTRY AND ENERGYHow are they related?
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What is Energy?
Defined as the ability to do work or create heat.
Many types of energy Thermal Light Gravitational Kinetic Potential
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Light Energy
The Dual Nature of Light (or electrons IN light): 1.Sometimes it behaves like a particle (called a photon), which explains how light travels in straight lines 2. Sometimes it behaves like a wave, which explains how light bends (or diffracts) around an object 3. Scientists accept the evidence that supports this dual nature of light
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Light is a form of energy called electromagnetic energy a. Other types of electromagnetic energy include
radio, microwave , heat (infrared), ultraviolet (UV) and many other types
Electromagnetic energy travels in waves The waves are different from each other in their
lengths – called wavelength a. Wavelength is the distance between 2 waves b. The crest is the highest point of a wave c. The trough is the lowest point of a wave d. The amplitude is how high the wave is e. Frequency is the number of waves in a given period of time
Electromagnetic Spectrum
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The shorter the wavelength and the greater the frequency, the higher the energy a. Radio waves are as long as soccer fields, low frequency and low energy b. Gamma rays are smaller than an atom, high frequency and high energy
Electromagnetic Spectrum Continued
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What Does This Energy Look Like?
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How Are They All Related
Frequency, wavelength and the speed of light are related by the following equation:
c = λν where c is the speed of light 3.00 x 108
m/s ν is the frequency measured in Hz
(hertz) (s-1) λ is the wavelength measured in nm
(nanometers)
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Lets Look at an Example
What is the frequency of a photon with λ = 550 nm
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Light Energy and Bohr’s Model
the Bohr model depicts an atom as a small, positively charged nucleus surrounded by electrons. These electrons travel in circular orbits around the nucleus—similar in structure to the solar system, except electrostatic forces rather than gravity provide attraction.
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Properties of Bohr’s Model
Electrons in atoms orbit the nucleus. Electrons can only orbit stably in
certain orbits ("stationary orbits“- remember the ladder rungs ).
These orbits are associated with definite energies and are also called energy shells or energy levels. REMEMBER THAT ALL ELECTRONS IN THE SAME ORBITAL ON THE SAME ENERGY LEVEL ARE DEGENERATE.
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So How Can Electrons Move?
Electrons can only gain or lose energy by jumping from one orbit to another
To go from a lower energy to a higher energy, electromagnetic radiation is absorbed
To go from a higher energy to a lower energy electromagnetic radiation is emitted in the form of photons (little packets of light)
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Electron Energy Calculations ΔE = hν ΔE = hν ΔE = hν
1) E is the energy of the particular quantum of energy under study measured in Joules (J)
2) h stands for a fundamental constant of nature now known as Planck's Constant. The value for Planck's
Constant is 6.626 x 10¯34 Joule second (Js).
3) ν is the frequency of the particular photon being studied (still measured in s-1)
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Lets Look at a Problem
Remember the problem from a few slides ago? Now lets calculate the energy in a wavelength of that frequency
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Thermochemistry
The study of heat used or released in a chemical reaction.
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Specific Heat Calculations q = mCΔT
q = heat (J or cal or Cal)4.184 cal = 1 Joule1000 cal = 1 Cal (dietary
calorie)m = mass (g)C = specific heat (J/g oC or cal/g
oC)ΔT = change in temperature (o C
or K) = Tf - Ti
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Specific Heat
Specific heat of water = 4.184 cal /g o C or
= 1 J / goC
Specific heat of most metals = < 1 J / goC
Do metals heat slowly or quickly compared to water?
Do metals stay warm longer or shorter than water?
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Practice Problem
How much energy is required to heat 120.0 g of water from 2.0 oC to 24.0oC?
q = mCΔTm= 120.0 gC = 4.184 J/goCΔT= (24.0 – 2.0)oC = 22.0oC
q = (120.0g)(4.184 J/goC)(22.0oC) =
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Practice Problem
How much heat (in kJ) is given off when 85.0 g of lead cools from 200.0oC to 10.0 oC? (Specific heat of lead = 0.129 J/g oC)
q = mCΔTm = 85.0 gC = 0.129 J/g oCΔT = (10.0 – 200.0)oC = -
190.0oCq = (85.0 g)(0.129 J/g oC)(- 190.0oC) =
-
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How Do Chemical Reactions Create Heat energy? Consider the combustion of gasoline
(octane)2 C8H18 +25 O2 16 CO2 +18
H2O Potential Energy: Stored energy
Potential energy is stored in the bonds of the reactant s and the products
When bonds are broken, the energy is available
When product bonds form, some energy is used in the formation of these bonds
The excess energy is released as heat
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Kinetic Energy
Directly related to temperature
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Is Heat Used or Released?
Endothermic reactions use heat from the surroundings Sweating Refrigeration
Exothermic reactions releases heat to the surroundings Hot hands Combustion Exercise
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Endothermic Reactions
Decrease in kinetic energy decrease in temperature heat will transfer from the environment to the system resulting in a cooler environment
Absorbs heat from its surrounding. The system gains heat Positive value for q H = q = 0 Hproducts Hreactants
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Exothermic Reactions
Increase in kinetic energy increase in temperature of system heat released to the environment resulting in a hotter environment
Releases heat to its surroundings The system loses heat Negative value for q H = q = 0 Hproducts Hreactants
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Enthalpy
Heat content for systems at constant pressure
Symbol is H Terms heat and enthalpy are used
interchangeably for this course H = q = m C T
Heat moves from ________ to ___________.
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Law of Conservation of Energy
Energy is not lost or gained in a chemical reaction
In a chemical reaction potential energy is transferred to kinetic energy
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Thermochemical Equations
An equation that includes the heat change
Example: write the thermochemical equation for this reaction CaO(s) + H2O(l) Ca(OH)2(s) H = -
65.2 kJ
CaO(s) + H2O(l) Ca(OH)2(s) + 65.2 kJ
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Stoichiometry and Thermochemistry
Tin metal can be extracted from its oxide according to the following reaction:
SnO2(s) + 4NO2(g) + 2H2O(l) + 192 kJ Sn(s) + 4HNO3(aq)
How much energy will be required to extract 59.5 grams of tin?
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How to solve
1. Use your stoichiometry2. Treat heat as a reactant or
productSnO2(s) + 4NO2(g) + 2H2O(l) +
192 kJ Sn(s) + 4HNO3(aq)
59.5 g Sn 1 mol Sn 192 kJ
1 g Sn 1 mol Sn
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If an Object feels hot, it means it is undergoing a change with a H that is:
a. positiveb. negativec. whether the object feels hot
or not is unrelated to its Hd. I don’t know
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If the object feels hot, it means it is undergoing:
a. an exothermic reactionb. an endothermic reactionc. whether it feels hot or not is
unrelated to whether it is undergoing an exothermic or an endothermic change
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HEAT DURING A CHANGE OF STATE
How does ice melt?
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What Is a Phase Change?
Is a change from one state of matter (solid, liquid, gas) to another.
Phase changes are physical changes because:
- It only affects physical appearance, not
chemical make-up.
- Reversible
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What Happens During a Phase Change
During a phase change, heat energy is either absorbed or released.
Heat energy is released as molecules slow down and move closer together.
Heat energy is absorbed as molecules speed up and expand.
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What Happens During a Phase Change
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Melting and Boiling Points Melting Point: The temperature
at which a solid changes into a liquid.
Boiling Point: The temperature at which a liquid changes into a gas.
What is a Freezing point? Compare the freezing and melting points of water.
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Molar Heat of Fusion (or Melting) Heat absorbed by one mole of a
substance during melting Constant temperature Hfus
H2O(s) H2O(l) H = 6.01 kJ/mol
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Molar Heat of Solidification (or Freezing) Heat lost when 1 mole of a liquid
solidifies Temperature is constant Hsolid
Hfus = -Hsolid
H2O(l) H2O(s) H = -6.01 kJ/mol
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Molar Heat of Vaporization (or Boiling) Heat needed to vaporize 1 mole
of a liquid Hvap
H2O(l) H2O(g) Hvap = 40.7 kJ/mol
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Molar Heat of Condensation Heat released when 1 mole of
vapor condenses Hcond
H2O(g) H2O(l) Hcond = -40.7 kJ/mol
Hvap = -Hcond
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Heating Curve for Water
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What Determines Phase
Whether a substance is a solid, liquid or gas depends on the temperature and pressure
Keeping T constant while increasing P usually produces a solid
Water is an exception, increasing pressure on ice produces water This causes ice skates to melt ice
and freezing water to expand and produce frost heaves
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Before We Look at a Phase Diagram…
Phase Diagram Plot of Pressure versus
Temperature Triple Point
A point on the phase diagram at which all three phases exist (solid, liquid and gas)
Critical Point A point on the phase diagram at
which the density of the liquid and vapor phases are the same
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Phase Diagram
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Phase Diagram Features
Beyond the critical point there is no distinction between a liquid and gas
Solid and liquid phases separated by a fusion curve
Solid and gas phases separated by a sublimation curve
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In Conclusion