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Chemistry (5/8)Due Today:•Stoichiometry Worksheet•Gas Laws Graphs
Objectives:•Complete Stoichiometry Quiz • Interpret and discuss the Gas Laws graphs by answering the questions in your packet.
Chemistry (5/9)Due Today:•Stoichiometry Worksheet-late•Gas Laws Graphs
Objectives:• Discuss the Gas Laws you read about from the text and applied to graphs. •Discuss Stoichiometry Quiz
Homework:
Study for Stoichiometry Re-Take Quiz
Gas Laws AssignmentChapter 14.2 in Text
•Graph each set of data using a line graph.
•Interpret each graph by answering the questions in the packet.
Gas Laws
Behavior of a gas when two of the following variables change:
• temperature of a gas (oC or K)• pressure of a gas (atm, mmHg, Pa)• volume of a gas ( mL, cm3)
Illustrate in your notes how a sample of gas in a balloon would be affected by a change in each variable above.
Gas Laws1. Volume vs. Pressure Graph
Boyle’s LawIf temperature is held constant, what is the relationship between the volume and pressure of a gas?
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Gas Laws2. Temperature vs. Volume Graph
Charles’ Law
If pressure is held constant, what is the relationship between temperature and volume of a gas?
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Gas Laws3. Temperature vs. Pressure of a Gas
Gay-Lussac’s Law
If volume is held constant, what is therelationship between temperature and pressure?
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Combined Gas Law• Establishes a relationship between pressure,
volume, and temperature of a gas if the amount of gas is held constant.
• P1V1/T1= P2V2/T2
Ideal Gas Law• Establishes a relationship between pressure,
volume, temperature, and quantity of a gas. • PV=nRT,where P= pressure (atm)• V= volume (Liters)• n= quantity of gas (moles)• R= gas constant: 0.0821 L-atm/mol-K• T= temperature (Kelvin)
Chemistry Introduction:Measurement and Scientific Method
Measurement and Scientific Method:Precision vs. Accuracy
Label each picture as precise, accurate, both, or neither.
Matter and Change
Phase Changes and Kinetic Energy
Atomic Structure
Electromagnetic Spectrum
Bohr’s Model of the Atom
• The electron cloud consists of energy levels.
• Electrons reside and move around in these energy levels.
• Electrons can move to other energy levels when absorb photons.
Electron Movement
1.Ground state of H Atom (lowest energy level for e-)2.A photon (light particle) is absorbed by H’s electron. Electron becomes excited and jumps to higher energy
level.3. E- returns to ground state and emits (releases) the
photon.
Emitted photon’s wavelength can be detected by scientists.
(Infrared region at room temp; Visble region at higher temps.)
1. 2. 3.
Electron Properties and Arrangement
Electron Properties and Arrangement
Electron Properties and Arrangement
Periodic Table
Periodic Table:Atomic Radius
Periodic Table:Ionization Energy
Chemical Bonding
Chemical Reactions
Types of Chemical Reactions1. Synthesis (A+ B ----> AB)
2. Decomposition (AB------> A + B)
3. Single Replacement (A+ BC ---> B + AC)
4. Double Replacement (AB + CD ---> CB + AD)
5. Combustion (CxHx + O2 ----> CO2 + H2O)
6. Neutralization (Acid + Base--> H2O + Salt)
Chemical Reaction Energy Diagram:Exothermic
Chemical Reaction Energy DiagramEndothermic
Chemical Reactions Rates• Reaction Rates = how fast the reactants
chemically change into the products. • Collision Theory: Reactant particles will
form products when reactants collide:- at the right position.- and exchange the right amount of kinetic
energy.
Nuclear Chemistry
Nuclear Band of Stability
http://www.hasdeu.bz.edu.ro/softuri/fizica/mariana/Atomica/Table/lessons/11nuclear/nuclear.htm
*Big Misconception: Stable nucleus means equal number of protons and neutrons. From graph, students confirmed that most elements with a stable nucleus needs more neutrons to minimize the repulsion force between protons with a similar charge.
Nuclear Chemistry:Radioactive Decay
Chemical Quantities
number ofrepresentative
particles
mass
1 mol22.4L
22.4L1 mol
6.02 x 10 particles1 mol
23
6.02 x 10 particles231 mol
1 molmolar mass
molar mass1 mol
moles
volumeat STP
Stoichiometry
Chemistry Final
What does Chemistry study?
Scientific Notation
1. Convert to scientific notation:
2,350,921
Scientific Notation
• Convert to scientific notation .
0.0000258
Metric Conversion
Kilo-, Hecto-, Deka-, Base, Deci- Centi-, Milli-
• 5 kg = ________cg
Metric Conversion
Kilo-, Hecto-, Deka-, Base, Deci- Centi-, Milli-
• 3.5cL= ______ L
Metric and English Conversions
How many seconds is in 10.26hrs?
Metric and English Conversions
• Sara ran 2 miles in 16 minutes. How far did she run in kilometers? (1mi= 1600m)
Density
What is the equation for density?
Density
• A solution has a mass of 1200 g and a density of 1.2 g/mL. What is the volume?
Density
• What is the density of a 50mL sample of water that has a mass of 49.6 g?
Scientific Method
• What are the 5 main steps to the scientific method?
Scientific Method
What is the difference between qualitative and quantitative results?
Scientific Method
• What is the difference between accuracy and precision?
Scientific Method
• Determine which of the following sets of data is most precise.
a. 2.5, 6.0, 4.0
b. 2.5, 3.0, 2.0
c. 2.5, 2.4, 2.3
Scientific Method
• A student wanted to know how temperature affected the rate of a chemical reaction. She observed and recorded the time it took for a chemical reaction to occur at three different temperatures.
What is the independent variable?
What is the dependent variable?
Significant Figures
• How many significant figures?
0.01020g ________
Significant Figures
• How many signficant figures?
• 2.104_______
Calculating using Significant Figures
• How many significant figures are in the answer?
1.21 g x 0.50g =
Calculating using Signficant Figures
• How many significant figures are in the answer?
0.45m + 2.140m + 1.3g+ 4g =
Matter
• What are the two broad classes of matter?
Classification of Matter
Matter
• What is the big difference between substances and mixtures?
Mixtures
• Determine if the following mixtures are heterogenous or homogenous mixtures.
a. Saltwater
b. Vegetable soup
Compounds
True or False: Compounds composition is always varied.
True or False: A compound’s properties are similar to the elements making up the compound.
Physical Properties
Give me example of physical properties.
Chemical properties
Give me example of chemical properties.
Physical or Chemical Change
• Determine if the following are chemical or physical changes
a. Boiling water
b. Digesting food
c. Burning fire wood
d. Dissolving sugar in water
Mixture or Compound?
• air
• Na(OH)
• lead
• Na(OH)solution
Atomic Theory
• Who believed matter consisted of air, wind, fire, and earth?
• Who was the first to propose that matter is composed of atoms?
Atomic Theory
• Who was the first person to confirm using the scientific method that matter was composed of atoms?
Dalton’s Atomic Theory
• Identify important concepts of Dalton’s Atomic Theory.
The Atom
• What are the two subatomic particles that have charge?
The Atom
• What are the two subatomic particles that contribute mass to an atom?
The Atom
• What is the difference between mass number and atomic mass?
Atomic Subparticles• Nitrogen is a neutral atom. It has 7neutrons and
7 electrons.
• What is Nitrogen’s number of protons?
• What is Nitrogen’s atomic number?
• What is Nitrogen’s mass number?
Atomic Subparticles
• Ca 2+ has a mass number of 40 and an atomic number of 20.
• How may protons does Ca 2+ have?
• How many electrons does Ca 2+ have?
• How many neutrons does Ca 2+ have?
The Atom
• What is an isotope?
Bell Ringer
• How many significant figures?
a. 0.040020____
b. 1.0200_____
c. 10,840______
d. 24.09/ 4.2______
e. 4.25 + 4.0 = ______
Isotope
• C-12 and C-13 are isotopes.
What subatomic particle has the same value with each isotope of carbon above?
What subatomic particle has different values with each isotope of carbon above?
Radioisotope
• What is a radioisotope?
• What are the three types of radioisotope particles we talked about?
Nuclear Radiation
paper
wood
concrete or lead
Radiation charges Radiation Penetration
Alpha ParticlesAlpha rays(α) = Emission of a He nucleus. • alpha particles are (+) charged .• large mass and charge prevents alpha particles from
traveling and penetrating far.
1.
parent decays α + daughter isotopeisotope particle (stable) (unstable) (He nucleus)
Nuclear Decay with α Particles
• Mass number decreases by four
• Atomic Number decreases by two
(Daughter isotope that is more stable)
Nuclear Decay: Beta Particles• Beta Rays (β) = A neutron breaks into a p+
and e-• p+ remains in nucleus and e- is emitted.• Beta rays have a (-) charge.• Beta rays travel and penetrate farther
because smaller charge and no mass.
Nuclear Decay with β particles
• Mass number remains the same
(proton switches with a neutron)
• Atomic number increases by one.
(proton formed in nucleus; stable daughter isotope).
Nuclear Decay: GammaGamma Rays(ϒ) = high energy particle with no mass or charge.Does not have a charge or mass, therefore travels and penetrates the farthest.Most dangerous rays because penetrates skin.Usually emitted with alpha and beta particles.
parent decays α + daughter isotope + ϒ
isotope particle (stable) (unstable) (He nucleus)
+ϒ
Nuclear Decay with ϒ rays
• Mass number remains the same
(ϒ rays has no mass)
• Atomic number remains the same
(ϒ rays has no mass or charge)
Periodic Table
• Who organized the periodic table based on atomic mass?
Periodic Table
• Who organized the periodic table based on atomic number?
Periodic Table
• How is the modern periodic table
Organized?
Periodic Table
• What is another name for rows on the periodic table?
Periodic Table
• What is another name for the columns on the periodic table?
Periodic Table
• Give me an example of a metal, non-metal, and a metalloid
Periodic Table
• What is the difference between transitional and representative groups?