Post on 31-Dec-2015
A Mad Scientist’s Chemistry Presentation
A Mad Scientist’s Chemistry PresentationCHEMISTRY TAKS
SCIENTIFIC METHOD• Conducts lab and field work in a SAFE
manner…• Environmentally and Ethically sensitive• Watch for questions that support unsafe
practices (COMMON SENSE)• Anticipate questions on disposal
Planning, Implementing, Collecting
• If given a problem, can you make a plan? • What is the problem?• What are possible solutions? (Hypothesis)• What steps could you take to get your
answers.
Organize, Analyze, Evaluate
• If given a set of facts, can you organize, analyze, and evaluate the data.
• Organize by “concept mapping”• What is the original question? • Analyze what you were given to answer the
question.
Make Inferences• Be able to read charts and determine trends.• If given a brief statement, identify key points first
and then relationships.• Is the trend up, down, etc.?• Concept mapping (THINKING MAPS) may clear the
question for you.
Critical Thinking Steps:• What is the question?• What data, information is provided?
Consider concept mapping.• Is the question simply a “fact question” or
is a conclusion called for?
A “fact” question…• What is the density of a 15 gram sample if it
occupies 5 cubic centimeters?• A. 2 grams/cc• B. 3 grams/cc• C. 5 grams/cc• D. 15 grams/cc
• Remember: formula sheets is provided!
Begin with “the question”
• You should be able to answer the question based on FACTS.
• Avoid “opinions”. An “opinion” answer on the test is USUALLY WRONG!
• Example: Which brand of toothpaste tastes best? TASTE is an OPINION.
Develop a HYPOTHESIS• What do you think the answer will be?• What have you seen in the past?• What does your library research say?• What are possible ways to answer your
question?
Develop a procedure• Write down how you will perform your test.• What equipment will you need?• What steps will be followed?• What safety issues are involved?• How will you collect and record your data?
Control your “variables”• What is a “variable”?• In this case:….
– Grain size and type of sugar– Original water temperature– Amount of tea in the mixture– Rate of stirring, etc.
Perform the Experiment• Follow the procedures you have
developed.• Keep accurate records of all results AND
OBSERVATIONS!• USE PROPER SAFETY PROCEDURES!
Interpret (EVALUATE) your results
• What kind of results did you get?• Did your results agree with your Hypothesis? • If not, why not?
– Did you make a mistake in your procedure? – Should you modify either your original Hypothesis or
your procedure?
Question Example?• The English physician Ronald Ross dedicated his
career to the investigation of malaria and how it spread. Ross knew that a parasite called Plasmodium was always found in the blood of people infected with malaria.
• People had long thought that malaria was a result of breathing “bad air”. Ross, however, thought that mosquitoes spread malaria from person to person. Which of these could BEST have helped Ross determine whether mosquitoes were involved in the spread of malaria?
Possible Answers• A. Observing wild mosquitoes for signs of malaria.• B. Injecting mosquitoes with Plasmodium.• C. Examining wild mosquitoes to see whether their tissues
contain Plasmodium.• D. Determine whether animals such as cows carry
Plasmodium in their blood.
Selecting the BEST answer…
What is Ross’s question?
• Are mosquitoes involved in the spread of malaria?
• Has he already made observations?– Yes, Plasmodium is seen in people infected by malaria.
•Can any be eliminated?
•Which answers use the same words and phrases, as the question?
•Now, which is the BEST answer?
Answer• C. Examining wild mosquitoes to see whether their
tissues contain Plasmodium.
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The Mad Scientist
TAKS OBJECTIVE 4• The student will demonstrate an
understanding of the structure and properties of matter.– investigate and identify properties of fluids
including density, viscosity, and buoyancy;– Relate the chemical behavior of element
including bonding, to its placement on the periodic table;
– Classify samples of matter from everyday life as being elements compounds, or mixtures
OBJECTIVE 4 continued• Distinguish between physical and chemical changes in matter
such as oxidation, digestion, changes in states, and stages in the rock cycle;
• Investigate and identify the law of conservation of mass• Relate the structure of water to its function as the universal
solvent;
• Relate the concentration of ions in a solution to physical and chemical properties such as pH, electrolytic behavior, and reactivity;
• Demonstrate how various factors influence solubility including temperature, pressure, and nature of the solute and solvent
WHAT IS MATTER?• Anything that has matter and takes up space.
– Element – building blocks of matter, cannot be broken down into simpler substances by a chemical REACTION.
– Compound – made up of two or more elements that are CHEMICALLY combined.
– Mixture – made up of two or more substances that can be broken down PHYSICALLY
THE ATOM•
PROTONS
NEUTRON
ELECTRONS
ENERGY LEVEL
Properties of metals, nonmetals, and
metalloids METAL nonmetals METALLOIDS
shiny Mostly dull Vary in ability to conduct electricity
Malleable brittle Used to make semiconductorsConduct under certain conditions
ductile Poor conductors
Good conductors of heat & electricity
Many gases at room temperature
Most are solids at room temperature
Valence electrons• Electrons in the outermost energy level• Electrons involved in bonding
Li +
++
s2p1
↑↓ ↑
ATOM vs ION
● Ca ● Ca 2+ + 2e- Calcium atom Calcium ion 2 electrons20 + 20 +20 - 18 -
Net chg = 0 Net chg = 2+
Let’s tie this into the periodic table
Group number 1 2 13 14 15 16 17 18
# valence e- 1 2 3 4 5 6 7 8
Gain/lose e- Lose 1
Lose 2
Lose 3
Gain/lose +4/ -4
Gain 3
Gain 2
Gain 1
0
Chg of ion +1 +2 +3 +4 -4
-3 -2 -1 0
He: exception b/c it only has two electrons
Classifying mattermatter
Physically separated?no yes
Pure substance
Breakdown chemically?no
element compound
yes
mixture
Look the same?no ye
s
heterogeneous homogeneous
solution
Three types of Bonds• Ionic – rxn between oppositely
charged particles
• Electrons are transferred
– Covalent – nonmetals
–Electrons are shared
What about Bonding• Ionic – metal/nonmetal• Or between charged ions
Mn Mn2+ S2-S
IONIC BONDING• Transfers electrons:
Na + 2s22p6
Cl- 3s23p6
Covalent Bonding
COVALENT BONDS
• Examples of hydride compounds of the above elements (covalent bonds with hydrogen:
•
Covalent Bonding
METALLIC BONDS• Force that holds atoms together in a substance.
• Metallic bonding is possible because in many cases the outer most electron shell of each metal atoms overlaps with a large number of neighboring atoms.
• It is often said they have a sea of electrons.
Indications of a Chemical Change
1. Change in color2. Change in temperature3. ppt formed4. Formation of a gas5. Light given off6. New substance
Chemical/Physical Changes
• Physical change – does not change the composition – Cutting wood, melting ice, boiling water
• Chemical change – creates a new substance– Digestion food, grass growing
Now it’s your turn….
• Two steel plates can be joined by a process called arc welding. In this process, tiny droplets of molten metal are deposited on the joint between the plates. The droplets then cool and harden, joining the plates together.
• Many metals will react with oxygen when they are exposed to the high temperatures of arc welding. Therefore, the droplets of molten metal are often shielded from oxygen in the surrounding air by a layer of argon gas.
• Why would argon gas be a more suitable shield for arc welding than hydrogen gas?
– A. Unlike hydrogen, argon is a nonmetal– B. Unlike hydrogen, argon is an inert gas– C. Argon has a larger atomic radius than hydrogen does– D Argon has a greater atomic mass than hydrogen does.
Question• Which best explains why sodium is more reactive than
magnesium?
– A. Sodium has only one valence electron, while magnesium has two
– B Sodium atoms typically have one more neutron than magnesium atoms do
– C Sodium forms ions with a charge of 2+, but magnesium forms ions with a charge of 1+
– D Sodium atoms tend to attract the electrons of other atoms more than magnesium atoms do
Question• Hydrogen and nitrogen gas react in a sealed container
kept at a constant temperature. The pressure in the container is less at the end of the reaction than at the beginning.
• 3H2(g) + N2(g) 2NH3(g)
– A there are fewer atoms at the end of the reaction than at the beginning.
– B There are fewer molecules at the end of the reaction than at the beginning.
– C The mass of the reactants is less than the mass of the products in the reaction
– D The volume of the reactants is less than the volume of the products in the reaction
Question• Scuba divers are exposed to greater pressure the deeper they
dive. Which is most likely to occur as a result of this increased pressure?
• A. Glucose will become much more soluble in divers’ cells
• B A high level of nitrogen gas will dissolve in divers’ bloodstream
• C Small bubbles of carbon dioxide will form in divers’ bloodstream
• D the amount of oxygen dissolved in divers’ cells will sharply decrease
Good Luck!
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