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Transcript 
Chapter 2
Matter and Energy
Start-up: pg. 37
• On a sheet of loose leaf paper:
– Predictions:
• Write what you think will happen
– Observations:
• Write what you actually see happening
– Analysis:
• Answer questions 1-3 in complete
sentences.
What you need to know!
•
•
•
•
•
•
Key terms
Types of energy
Temperature conversions
Accuracy/Precision
Significant figures
Calculating using significant
figures
• Scientific notation
Sec 1: Energy
•
•
•
•
Physical -vs- Chemical Changes
Evaporation
Endothermic -vs- Exothermic
Law of Conservation of Energy,
Mass, Mass/Energy
• System -vs- Surroundings
Energy
• Heat -vs- Temperature
Energy
Kinetic & Potential Energy
KINETIC ENERGY
Kinetic energy is
motion––of waves,
electrons, atoms,
molecules, substances,
and objects.
POTENTIAL ENERGY
Potential energy is stored
energy and the energy of
position––gravitational energy.
There are several forms of
potential energy.
Kinetic Energy
•
•
•
•
•
Electrical Energy is the movement of electrical charges. Everything is
made of tiny particles called atoms. Atoms are made of even smaller
particles called electrons, protons, and neutrons. Applying a force can
make some of the electrons move. Electrical charges moving through
a wire is called electricity. Lightning is another example of electrical
energy.
Radiant Energy is electromagnetic energy that travels in transverse
waves. Radiant energy includes visible light, x-rays, gamma rays and
radio waves. Light is one type of radiant energy. Solar energy is an
example of radiant energy.
Thermal Energy, or heat, is the internal energy in substances––the
vibration and movement of the atoms and molecules within
substances. Geothermal energy is an example of thermal energy.
Motion Energy is the movement of objects and substances from one
place to another. Objects and substances move when a force is
applied according to Newton’s Laws of Motion. Wind is an example of
motion energy.
Sound is the movement of energy through substances in longitudinal
(compression/rarefaction) waves. Sound is produced when a force
causes an object or substance to vibrate––the energy is transferred
through the substance in a wave.
Potential Energy
•
•
•
•
Chemical Energy is energy stored in the bonds of atoms and
molecules. It is the energy that holds these particles together.
Biomass, petroleum, natural gas, and propane are examples of
stored chemical energy.
Stored Mechanical Energy is energy stored in objects by the
application of a force. Compressed springs and stretched rubber
bands are examples of stored mechanical energy.
Nuclear Energy is energy stored in the nucleus of an atom––the
energy that holds the nucleus together. The energy can be released
when the nuclei are combined or split apart. Nuclear power plants
split the nuclei of uranium atoms in a process called fission. The
sun combines the nuclei of hydrogen atoms in a process called
fusion. Scientists are working on creating fusion energy on earth,
so that someday there might be fusion power plants.
Gravitational Energy is the energy of position or place. A rock
resting at the top of a hill contains gravitational potential energy.
Hydropower, such as water in a reservoir behind a dam, is an
example of gravitational potential energy.
Temperature Conversion
Celsius (°C) and Kelvin (K)
Temperatures can be converted to
each other.
K = °C + 273
Sec 2: Matter and Energy
OOPS!
• What were some unexpected
discoveries?
– Teflon
– Dyes
– Penicillin
Scientific Explanations
•
•
•
•
Hypothesis
Theory
Law
Variables
– Independent
– Dependent
– Control
Sec 3: Measurement &
Calculations
Accuracy –vs- Precision
Significant Figures
• Nonzero digits are always significant
• Zeros between nonzero digits are
significant.
• Preceding zeros (in front of nonzero
digits) are not significant.
• Trailing zeros (zeros at the end of a
number) are significant if there is a
decimal point in the number. Caution: I
did not say after the decimal point!!!
• Ask me about infinite number of sig figs.
Calculating Using
Significant Figures
• In multiplication and division
problems the number with the least
number of significant figures
determines the number of significant
figures in the answer.
• In addition and subtraction the
number with the least number of
decimal places determines the number
of decimal places in the answer.
Scientific Notation
• Very large numbers: positive
exponents
• Very small numbers: negative
exponents
• Always have one number then the
decimal point with all other significant
digits, then times ten to the power
End of Chapter 2
•
•
•
•
•
•
Key terms
Types of energy
Temperature conversions
Accuracy/Precision
Significant figures
Calculating using
significant figures
• Scientific notation
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