Difference between revisions of "Chemistry Glossary"
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| Line 39: | Line 39: | ||
* [[HS-PS1-2|carbon]] | * [[HS-PS1-2|carbon]] | ||
* [[HS-LS1-5|carbon dioxide]] | * [[HS-LS1-5|carbon dioxide]] | ||
| + | * [[Questions:PSC Evaluating Gas Stoves#q3|carbon tetrafluoride]] | ||
* [[HS-PS1-5|catalyst]] | * [[HS-PS1-5|catalyst]] | ||
* [[HS-PS1-8|charge]] | * [[HS-PS1-8|charge]] | ||
| Line 66: | Line 67: | ||
<br> | <br> | ||
== D == | == D == | ||
| + | * [[Questions:PSC Evaluating Gas Stoves#q3|1,1-difluoroethane]] | ||
* [[HS-PS1-10|degree of saturation]] | * [[HS-PS1-10|degree of saturation]] | ||
| + | * [[Questions:PSC Evaluating Gas Stoves#q3|dinitrogen monoxide]] | ||
* [[HS-PS1-3|dipole-dipole]] | * [[HS-PS1-3|dipole-dipole]] | ||
* [[HS-PS1-6|dynamic equilibrium]] | * [[HS-PS1-6|dynamic equilibrium]] | ||
| Line 115: | Line 118: | ||
* [[HS-PS1-5|high temperature]] | * [[HS-PS1-5|high temperature]] | ||
* [[HS-PS1-2|hydrogen]] | * [[HS-PS1-2|hydrogen]] | ||
| − | * [[Questions:PSC A Profitable Blueberry Field|hydrogen ion]] | + | * [[Questions:PSC A Profitable Blueberry Field#q3|hydrogen ion]] |
* [[Questions:PSC A Profitable Blueberry Field#q2|hydronium ion]] | * [[Questions:PSC A Profitable Blueberry Field#q2|hydronium ion]] | ||
<br> | <br> | ||
| Line 121: | Line 124: | ||
* [[HS-PS1-9|ideal gas]] | * [[HS-PS1-9|ideal gas]] | ||
* [[Questions:PSC A Profitable Blueberry Field#q1|indicator]] | * [[Questions:PSC A Profitable Blueberry Field#q1|indicator]] | ||
| − | * [[Questions:Smartphone Chemistry Sample Cluster|indium tin oxide]] | + | * [[Questions:Smartphone Chemistry Sample Cluster#q1|indium tin oxide]] |
| − | * [[Questions: | + | * [[Questions:Smartphone Chemistry Sample Cluster#q1|insulator]] |
* [[HS-PS1-3|intermolecular forces]] | * [[HS-PS1-3|intermolecular forces]] | ||
* [[HS-PS1-3|ion]] | * [[HS-PS1-3|ion]] | ||
* [[HS-PS1-1|ionization]] | * [[HS-PS1-1|ionization]] | ||
* [[HS-PS1-1|ionization energy]] | * [[HS-PS1-1|ionization energy]] | ||
| + | <br> | ||
| + | == J == | ||
<br> | <br> | ||
== K == | == K == | ||
| Line 136: | Line 141: | ||
* [[HS-PS3-4|liquid]] | * [[HS-PS3-4|liquid]] | ||
* [[HS-PS1-10|liquid-liquid solution]] | * [[HS-PS1-10|liquid-liquid solution]] | ||
| − | * [[Questions:Smartphone Chemistry Sample Cluster|lithium]] | + | * [[Questions:Smartphone Chemistry Sample Cluster#q5|lithium]] |
| − | * [[Questions:Smartphone Chemistry Sample Cluster|lithium cobalt oxide]] | + | * [[Questions:Smartphone Chemistry Sample Cluster#q5|lithium cobalt oxide]] |
* [[HS-PS2-6|long-chained molecule]] | * [[HS-PS2-6|long-chained molecule]] | ||
<br> | <br> | ||
| Line 153: | Line 158: | ||
* [[HS-PS1-1|metal]] | * [[HS-PS1-1|metal]] | ||
* [[Questions:PSC A Profitable Blueberry Field#q1|methyl red]] | * [[Questions:PSC A Profitable Blueberry Field#q1|methyl red]] | ||
| − | * [[Questions:PSC Evaluating Gas Stoves|methane]] | + | * [[Questions:PSC Evaluating Gas Stoves#q1|methane]] |
* [[HS-PS3-4|mixing]] | * [[HS-PS3-4|mixing]] | ||
* [[HS-PS1-3|molecule]] | * [[HS-PS1-3|molecule]] | ||
* [[HS-PS1-7|mole]] | * [[HS-PS1-7|mole]] | ||
| − | * [[Questions:Smartphone Chemistry Sample Cluster|molten potassium salt]] | + | * [[Questions:Smartphone Chemistry Sample Cluster#q1|molten potassium salt]] |
* [[HS-PS1-6|molecular level]] | * [[HS-PS1-6|molecular level]] | ||
* [[HS-PS1-10|molarity]] | * [[HS-PS1-10|molarity]] | ||
| Line 168: | Line 173: | ||
* [[HS-PS1-11|neutralization]] | * [[HS-PS1-11|neutralization]] | ||
* [[HS-PS1-11|neutralization capability]] | * [[HS-PS1-11|neutralization capability]] | ||
| − | * [[Questions:PSC A Profitable Blueberry Field|nitrate ion]] | + | * [[Questions:PSC A Profitable Blueberry Field#q3|nitrate ion]] |
* [[Questions:PSC A Profitable Blueberry Field#q4|nitrogen]] | * [[Questions:PSC A Profitable Blueberry Field#q4|nitrogen]] | ||
| − | * non-ideal gas behavior | + | * [[HS-PS3-5|non-ideal gas behavior]] |
* [[HS-PS1-8|nuclear energy]] | * [[HS-PS1-8|nuclear energy]] | ||
* [[HS-PS1-8|nuclear process]] | * [[HS-PS1-8|nuclear process]] | ||
| Line 178: | Line 183: | ||
== O == | == O == | ||
* [[HS-PS3-5|opposite polarity]] | * [[HS-PS3-5|opposite polarity]] | ||
| − | * [[Questions:Smartphone Chemistry Sample Cluster|overall reaction]] | + | * [[Questions:Smartphone Chemistry Sample Cluster#q5|overall reaction]] |
| − | * [[Questions:Smartphone Chemistry Sample Cluster|oxide]] | + | * [[Questions:Smartphone Chemistry Sample Cluster#q1|oxide]] |
* [[HS-PS1-12|oxidation]] | * [[HS-PS1-12|oxidation]] | ||
* [[HS-PS1-12|oxidation half-reaction]] | * [[HS-PS1-12|oxidation half-reaction]] | ||
| Line 196: | Line 201: | ||
* [[HS-PS1-1|periodic table]] | * [[HS-PS1-1|periodic table]] | ||
* [[HS-PS1-11|pH]] | * [[HS-PS1-11|pH]] | ||
| + | * [[HS-PS4-3|photoelectric effect]] | ||
* [[HS-PS4-4|photon]] | * [[HS-PS4-4|photon]] | ||
| − | * photosynthesis | + | * [[HS-PS4-3|phenomenon]] |
| + | * [[HS-LS1-5|photosynthesis]] | ||
* [[HS-PS1-5|physical change]] | * [[HS-PS1-5|physical change]] | ||
* [[HS-PS3-5|polarity]] | * [[HS-PS3-5|polarity]] | ||
| Line 205: | Line 212: | ||
* [[Questions:PSC A Profitable Blueberry Field#q2|potassium ion]] | * [[Questions:PSC A Profitable Blueberry Field#q2|potassium ion]] | ||
* [[HS-PS3-1|power]] | * [[HS-PS3-1|power]] | ||
| − | * precision | + | * [[HS-PS1-3|precision]] |
* [[HS-PS1-9|pressure]] | * [[HS-PS1-9|pressure]] | ||
* [[HS-PS1-6|product]] | * [[HS-PS1-6|product]] | ||
| Line 232: | Line 239: | ||
== S == | == S == | ||
* [[HS-PS1-8|scale of energy]] | * [[HS-PS1-8|scale of energy]] | ||
| − | * silicon | + | * [[Questions:Smartphone Chemistry Sample Cluster#q1|silicon]] |
* [[HS-PS1-2|sodium]] | * [[HS-PS1-2|sodium]] | ||
| − | * sodium ion | + | * [[Questions:Smartphone Chemistry Sample Cluster#q1|sodium ion]] |
* [[HS-PS1-10|solution]] | * [[HS-PS1-10|solution]] | ||
* [[HS-PS1-4|stable molecule]] | * [[HS-PS1-4|stable molecule]] | ||
| Line 240: | Line 247: | ||
* [[HS-PS3-2|stored energy]] | * [[HS-PS3-2|stored energy]] | ||
* [[HS-PS2-6|structure and function]] | * [[HS-PS2-6|structure and function]] | ||
| − | * subatomic particle | + | * [[HS-PS3-5|subatomic particle]] |
| − | * | + | * [[Questions:PSC Evaluating Gas Stoves#q3|sulfur hexafluoride]] |
| − | * [[Questions:PSC A Profitable Blueberry Field|sulfate ion]] | + | * [[Questions:PSC A Profitable Blueberry Field#q1|sulfate ion]] |
* [[HS-PS1-5|surface area]] | * [[HS-PS1-5|surface area]] | ||
* [[HS-PS1-3|surface tension]] | * [[HS-PS1-3|surface tension]] | ||
| Line 250: | Line 257: | ||
* [[HS-PS3-4|temperature]] | * [[HS-PS3-4|temperature]] | ||
* [[HS-PS3-1|thermal energy]] | * [[HS-PS3-1|thermal energy]] | ||
| − | * titration | + | * [[HS-PS1-11|titration]] |
| − | * total bond energy | + | * [[HS-PS1-4|total bond energy]] |
| − | * transformation | + | * [[HS-PS1-8|transformation]] |
| − | * trend | + | * [[HS-PS1-2|trend]] |
<br> | <br> | ||
== U == | == U == | ||
| − | * ultraviolet radiation | + | * [[HS-PS4-4|ultraviolet radiation]] |
| − | * unstable nucleus | + | * [[HS-PS1-8|unstable nucleus]] |
<br> | <br> | ||
== V == | == V == | ||
| − | * vapor pressure | + | * [[HS-PS1-3|vapor pressure]] |
| − | * visible spectrum | + | * [[Questions:PSC Evaluating Gas Stoves#q4|visible spectrum]] |
| − | * volume | + | * [[HS-PS1-9|volume]] |
<br> | <br> | ||
== W == | == W == | ||
| − | * water | + | * [[HS-PS3-4|water]] |
| − | * wavelength | + | * [[HS-PS4-1|wavelength]] |
| − | * work | + | * [[HS-PS3-1|work]] |
<br> | <br> | ||
== X == | == X == | ||
| − | + | <br> | |
| + | == Y == | ||
| + | <br> | ||
| + | == Z == | ||
<br> | <br> | ||
{{Pagecontributors}} | {{Pagecontributors}} | ||
__NOTOC__ | __NOTOC__ | ||
Latest revision as of 08:58, 23 June 2025
This glossary is strictly limited to terms originating from official NYSED materials such as standards and released test questions.
A
- absorption (of electromagnetic radiation)
- absorption (of energy)
- acid
- acid-base reaction
- algebraic expression
- alizarine yellow
- alpha decay
- aluminosilicate glass
- aluminum
- aluminum oxide
- ammonium ion
- ammonium sulfate
- anode
- Arrhenius acid-base reaction
- atomic scale
- atomic structure
- attraction
- attractive force
B
- balancing
- base
- beta decay
- binding energy
- boiling point
- boiling point elevation
- bond
- bond energy
- bond formation
- Boyle’s Law
- bromcresol purple
- bromphenol blue
- Bronsted-Lowry acid-base reaction
- bulk scale
C
- carbon
- carbon dioxide
- carbon tetrafluoride
- catalyst
- charge
- chemical change
- chemical energy
- chemical equation
- chemical property
- chemical reaction
- chemical reaction system
- chlorine
- chlorophyll
- closed system
- colligative property
- collision theory
- combined gas law
- combustion reaction
- computational model
- concentration
- conductivity
- conductor
- conservation of charge
- conservation of energy
- conservation of mass
- contact force
- conversion factor
- cobalt oxide
D
E
- electric charge
- electric field
- electrical energy
- electrically conductive material
- electromagnetic energy
- electromagnetic radiation
- electron
- electron state
- electron transfer
- element
- elemental sulfur
- energy
- energy change
- energy conservation
- energy conversion
- energy flow
- energy transfer
- energy transformation
- endothermic reaction
- equilibrium
- exothermic reaction
F
G
H
I
- ideal gas
- indicator
- indium tin oxide
- insulator
- intermolecular forces
- ion
- ionization
- ionization energy
J
K
L
- Le Chatelier’s Principle
- light energy
- liquid
- liquid-liquid solution
- lithium
- lithium cobalt oxide
- long-chained molecule
M
- macroscopic level
- macroscopic scale
- magnetic field
- main-group element
- mass
- mathematical expression
- mathematical representation
- matter
- matter flow
- melting point
- metal
- methyl red
- methane
- mixing
- molecule
- mole
- molten potassium salt
- molecular level
- molarity
N
- nature of reactants
- net ionic equation
- network solid
- neutron
- neutralization
- neutralization capability
- nitrate ion
- nitrogen
- non-ideal gas behavior
- nuclear energy
- nuclear process
- nucleus
- number of collisions per unit time
O
- opposite polarity
- overall reaction
- oxide
- oxidation
- oxidation half-reaction
- oxidation-reduction reaction
- oxygen
- outermost electron state
- outermost energy level
P
- particulate-level structure
- particle
- particle collision
- particle orientation
- parts per million (ppm)
- percent by mass
- periodic table
- pH
- photoelectric effect
- photon
- phenomenon
- photosynthesis
- physical change
- polarity
- positron decay
- Potential energy
- potassium
- potassium ion
- power
- precision
- pressure
- product
- proportional relationship
- proton
- properties
Q
R
- radiation
- radioactive decay
- rate of reaction
- reactant
- reaction
- reaction with oxygen
- reactivity
- release of energy
- relative property
- repulsive force
- real gas
- reverse reaction
S
- scale of energy
- silicon
- sodium
- sodium ion
- solution
- stable molecule
- standard temperature and pressure (STP)
- stored energy
- structure and function
- subatomic particle
- sulfur hexafluoride
- sulfate ion
- surface area
- surface tension
- system
T
U
V
W
X
Y
Z
Page contributors: Conrad Richman, Shirley Shameen