Chemistry 1A – Final Exam Study GuideNameHour
Chapter 1 – Fundamentals of measurement and calculation
List the main metric prefixes and the meaning of each
For each number value given, underline the significant digits and list the correct number of significant digits
- .00342
- 140000
- 12.010
- 28.0
Convert each number given to proper scientific notation form
- .0000048
- 38700000
Convert each number given into proper decimal form
- 6.84x10-4
- 5.2x106
Use dimensional analysis to convert between the metric units given:
- Convert 12.9m to cm
- Convert .025 kg to g
- Convert .00kg to mg
State Standard C.1.7
- Define density and distinguish among materials based on densities. Perform calculations involving density.
A liquid has a mass of 32.1g and a volume of 43.8mL. Calculate the density.
Determine the mass (g) of a piece of wood with a density of .75 g/cm3 and a volume of 30.0 cm3
Determine the volume (mL) of a glass of water (density = 1.0 g/mL) that has a mass of 125g
Chapter 3 – States of Matter
State Standards
- C.1.1Based on physical properties, differentiate between pure substances and mixtures
- C.1.2 Observe and describe chemical and physical properties of different types of matter
- C.1.3Recognize observable indicators of chemical changes
- C.1.4Describe physical and chemical changes at the molecular level
- C.1.5Describe the characteristics of solids, liquids and gases and changes in state at the molecular level
Fill in the chart below to distinguish between solids, liquids and gases
definite shape? / definite volume? / fluid? / molecular spacing?solid
liquid
gas
Describe what is happening (at the molecular and macroscopic level) in each of the following physical changes
- Evaporation
- Condensation
- Sublimation
- Freezing
- Melting
Explain the difference between a physical change and a chemical change (at the molecular level)
Compare and contrast elements, compounds, and mixtures at the molecular level and the macroscopic level
Explain the difference between a homogeneous mixture and a heterogeneous mixture. Identify which one is a “solution”
Explain how each of the following methods is used to separate a mixture
- Settling
- Filtration
- Distillation
Chapter 4 – Atomic Structure and the Periodic Table
State Standards:
- C.2.2 Describe how the subatomic particles (i.e., protons, neutrons and electrons) contribute to the structure of an atom and recognize that the particles within the nucleus are held together against the electrical repulsion of the protons.
- C.2.3 Determine the number of protons, neutrons, and electrons in isotopes and in those isotopes that comprise a specific element. Relate these numbers to atomic number and mass number.
Fill in the following chart
charge / mass / locationproton
neutron
electron
What is the significance of neutrons? Why are they necessary in an atom?
Use a periodic table to determine the following:
- The number of protons in a silicon atom
- The number of neutrons in a bromine atom
- The most stable isotope of carbon
- The number of neutrons in a carbon 14 isotope
- The number of electrons in an oxygen atom
- The number of electrons in a chloride ion (Cl-1)
What is the difference between an atom and an ion?
How do ions form?
What type of elements usually form positive ions? Negative ions?
Write formulas for
- Potassium nitride
- Magnesium bromide
- Calcium phosphide
- Sodium iodide
In a formula for an ionic compound, which ion goes first?
What does the suffix “ide” tell you?
Chapter 5 – Formulas and Naming
State Standards
C.3.4 Write chemical formulas for ionic compounds given their names and vice versa.
What does a suffix “ate” tell you?
A compound between a metal and a nonmetal is usually
A compound between 2 nonmetals is usually
What category of elements often has more than one possible charge?
How do you show the charge for those elements in the name of a compound?
Write formulas for
- Iron III chloride
- Iron III oxide
- Cobalt II sulfide
- Manganese IV oxide
Write formulas for
- Silicon tetrachloride
- Dinitrogenpentoxide
- Boron triiodide
Write formulas for
- Lithium carbonate
- Potassium phosphate
- Calcium nitrate
- Ammonium sulfate
Write names for
- CaBr2
- Li3P
- BF3
- SBR6
- CaCO3
- Ba(NO3)2
- NiS
- Cu2SO4
Chapter 11 – Electron Configurations
Indiana State Standards
C.2.5 Write the electron configuration of an element and relate this to its position on the periodic table.
C.2.6 Use the periodic table and electron configuration to determine an element's number of valence electrons and its chemical and physical properties.
Draw an outline of the periodic table and label the s, p, d and f blocks
Fill in the following tables
energy level / number of orbitals / type of orbitals / type of orbital / number of orbitals1st / s
2nd / p
3rd / d
4th / f
Write the full electron configuration for
- Aluminum
- Oxygen
Write the valence electron configuration for
- Sulfur
- Chromium
- Neon
Chapter 12 – Chemical bonding
State Standards:
- C.3.1 Describe, compare and contrast the characteristics of the interactions between atoms in ionic and covalent compounds.
- C.3.2 Compare and contrast how ionic and covalent compounds form.
- C.3.3 Draw structural formulas for and name simple molecules.
- C.3.5 Compare and contrast ionic, covalent, polar and non-polar molecular bonding
Explain the concept of electronegativity
What happens to the electronegativity value for elements as you
- Go down a group (top to bottom)
- Go across a period (left to right)
Use the chart of electronegativity values on page 362. Determine the electronegativity difference to answer the questions
- What kind of bond will form between C and Cl?
- What kind of bond will form between Mg and Cl?
- What kind of bond will form between H and O?
- Which is more polar, N to O or N to S?
- Which is more polar H to O or C to O?
Draw Lewis structures for
- Phosphorus
- Aluminum
- Chlorine
- Argon
- HBr
- H2S
- PH3
- SiBr4
Chapter 6
Standard 4: Reactions and Stoichiometry
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Core Standard
Use balanced chemical equations and the mole concept to determine the quantities of reactants and products.
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C.4.1 Predict products of simple reactions such as synthesis, decomposition, single replacement and double replacement.
C.4.2 Balance chemical equations using the law of conservation of mass and use them to describe chemical reactions.
C.4.3 Given mass of the sample, use the mole concept to determine the number of moles and number of atoms or molecules in samples of elements and compounds.
C.4.4 Using a balanced chemical equation, calculate the quantities of reactants needed and products made in a chemical reaction that goes to completion.
C.4.5 Describe, classify and give examples of various kids of reactions-synthesis (i.e., combination), decomposition, single displacement, double displacement and combustion.
C.4.6 Determine oxidation states and identify the substances gaining and losing electrons in redox reactions.
C.4.7 Perform calculations to determine the composition of a compound or mixture when given the formula.