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161 Cards in this Set
- Front
- Back
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MSDS
section 1 |
chemical product and company identification
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MSDS
Section 2 |
composition infor on ingredients
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MSDS
Section 3 |
Hazards Identification
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MSDS
Section 4 |
First Aid Measures
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MSDS
Section 5 |
Fire Fighting Measures
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MSDS
Section 6 |
Accidental Release Measures
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MSDS
Section 7 |
Handling and Storage
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MSDS
Section 8 |
Exposure controls, personal protection
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MSDS
Section 9 |
Physical and Chemical Properties
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MSDS
Section 10 |
stability and reactivity
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MSDS
Section 11 |
Toxicological Information
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MSDS
Section 12 |
Ecological information
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MSDS
Section 13 |
disposal considerations
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MSDS
Section 14 |
Transport Information
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MSDS
Section 15 |
Regulatory Information
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MSDS
Section 16 |
other information
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Lab Safety Rules
#1 |
always wear saftey googles and gloves
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Lab Safety Rules
#4 |
tie back long hair
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Lab Safety Rules
#5 |
take off anything dangly
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Lab Safety Rules
#7 |
read all directions several times
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Lab Safety Rules
#8 |
never perform that are not authorized
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Lab Safety Rules
#10 |
take extreme care not to spill materials
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Lab Safety Rules
#11 |
never eat or drink during lab
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Lab Safety Rules
#12 |
no horseplay
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Lab Safety Rules
#17 |
report all acciedents to teacher immediately
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velocity=
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frequency x wavelength
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frequency=
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velocity/wavelength
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wavelength=
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velocity/frequency
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period=
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1/frequency
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frequency=
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1/period
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1=
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frequency x period
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waves
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disturbances that move energy from place to place-DO NOT CARRY MATTER
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mechanical waves
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need a medium; sound; longitudial-back and fourth; form of motion
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sound
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push in and out in all directions
longitudinal require air(medium) |
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compression
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compact area
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rarefactions
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spread out area
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electromagnetic
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can travel through medium;radio waves; microwaves; all transverse
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radio waves
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travel from satalites in space to recievers on earth
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ocean waves
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transverse
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transverse waves
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the particular displacement is perpendicular to the direction of the wave propagation;mechanical
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trough
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bottom
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crest
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top
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gammarays
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most entergetic
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photons
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massless particle that behaves like a wave and moves at the speed of light; have specific amount of energy
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amlitude
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size of wave;loudness of sound; brightness of light; distance from the rest-crest
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wavelength
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distance from one part of a wave to another
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period
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time for one osilation
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hertz
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wave/sec.
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upside down y =
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wavelength
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atomic number
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number of protons
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number of protons
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number of electrons in neutral atom
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if protons dont equal electrons
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have a charged atom called ion
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gain electron
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more negative
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lost electron
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you are more positive
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protons+neutrons
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mass number
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2 atoms same # protons but different neutrons
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isotope
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average mass of all isotopes
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atomic mass
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valence electron
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electron in outer energy level
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Lab Safety Rules
#18 |
learn what to do in case of specific acciedents
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Lab Safety Rules
#22 |
never reach across a flame
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Lab Safety Rules
#23 |
know how to light a bunsen burner
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Lab Safety Rules
#24 |
point test tude away from you and others
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Lab Safety Rules
#27 |
never touch, smell, or taste chemicals
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Lab Safety Rules
#31 |
when diluting an acid, always pour acid into water
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Lab Safety Rules
#45 |
never use broken or chipped glass
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Lab Safety Rules
#46 |
never eat or drink from laboratoy glassware
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Lab Safety Rules
#54 |
when discounnecting electrical equipment pull the plug, not the wire
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Lab Safety Rules
#56 |
never handle electrical equipment with wet hands
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Lab Safety Rules
#57 |
always clean up workstation after use
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Lab Safety Rules
#58 |
wash hands after every experiment
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3 ft
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1 yard
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12 inches
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1 ft
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5280 ft
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mile
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4 quarts
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1 gallon
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16 oz
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1 pound
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2000 lbs
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1 ton
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1 in
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2.54 cm
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1 liter
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1.06 quarts
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1 lb
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454 grams
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1 kg
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2.2 lbs
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king
henry dies by drinking chocolate milk |
kilo
hecto deka base deci centa milli |
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2 main types of waves
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electromagnetic, and mechanical
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moves from side to side
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transversal waves
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amplitude
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size of wave
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wavelength
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the distance from one point on a wave to the corresponding point on the next point
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period
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time it takes to make one oscillation
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frequency
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how many times in a second wave wiggles
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Mechanical waves
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are a form of motion in which one part of the object moves relative to another, rather than an overall motion of the object from one place to another
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can be transversal or longitudinal
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mechanical waves
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radio, light, heat radiation, microwaves, and all x-rays
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electromagnetic waves
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kilo
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1000
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hecto
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100
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deka
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10
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base
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1
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deci
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.1
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centa
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.01
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milli
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.001
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1
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mono, I
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2
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di, II
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3
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tri, III
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4
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tetra, IV
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5
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penta, V
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6
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hexa, VI
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7
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hepta, VII
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8
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octa, VIII
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9
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nona, IX
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10
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deca, X
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hill
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an area of high ground
at a hillop, everywhere around you is down |
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ridge
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a line of high ground with height variations along its crest
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valley
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relatively flat line bordered on the side by higher ground
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saddle
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a dip or low point along the crest of a ridge
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depression
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low point or hole in the ground
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draw
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small valley without a flat bottom
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spur
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a usually short, continuously sloping line from each hill along the ridge
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cliff
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a vertical or near vertical slope
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when contour lines are close together
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it is steep
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concave hill
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contour lines are widely spaced on top, closely spaced on bottom
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t
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tails
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a
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axes
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i
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increment
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l
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lables
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s
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size
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y=
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dependent
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x=
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independent
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d
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dependent
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r
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responding
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y
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y axis
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m
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manipulative
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i
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independent
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x
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x axis
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standard deviation
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a measure of how much your data varies from the other
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mechanical wave
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form of motion
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endothermic
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cold
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exothermic
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hot
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Bonding
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next card
just a cover |
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transfer ionic
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metal+nonmetal
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showing covalent
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2 nonmetals
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heat
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the internal kinetic energy of the atoms and molecules that makes up a substance
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since it is a measure of energy
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it is measured in joules
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joules
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1 newton meter, i kg m/s squared
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temperature
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average speed or kinetic energy of the atoms and molecules that make up a substance
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heat will not flow between two substances of the same temperature
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celcius, kelvin, farinheit
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absolute zero
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the lowest temperature possible
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also signified at the temp at which
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empty space is completley of all motion and or energy
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specific heat
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amount of energy required to raise the kilogram of a substance by 1 degree kelvin
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low specific heat
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low input energy
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high specific heat
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high input energy
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substances with different specific heat
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require different amounts of energy
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Q=(C)(M)(change in t)
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specific heat formula
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c=
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specific heat
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m
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mass of substance in grams
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change in temperature
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change in temp. the the substance
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3 ways to transfer heat
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convention
convection radiation |
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conduction
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the flow of heat via collisions between atoms and molecules in a substance
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convection
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movement of heat by the mass movement of a fluid (such as water and air)
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radiation
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energy transfer via electromagnetic waves;
shortwave radiation vs. longwave radiation sun vs. earth |
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sun
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short
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earth
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long
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hotter the object
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shorter the wavelength
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conservation of heat
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cover card
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atoms
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movements in 3 ways
tanslate rotate vibrate |
