EOCT Review by JUDY ROBINSON

EOCT Reference Sheet

robinsonjs2 — 2019-01-04 19:29:15 UTC

Periodic Table

robinsonjs2 — 2019-01-04 19:39:30 UTC

SPS1a

robinsonjs2 — 2019-01-04 20:46:20 UTC

Protons, electrons, neutrons (Follow link to You-Tube) Only in a neutral atom is the #p+ = #e- . You must know the number of protons to identify the element!

SPS1a

robinsonjs2 — 2019-01-04 20:52:05 UTC

Structure of the Atom

(comprehensive)

SPS1a

robinsonjs2 — 2019-01-04 20:53:42 UTC

Atoms - Isotopes, Ions etc.

SPS1a

robinsonjs2 — 2019-01-04 20:55:27 UTC

Electrons (first 20 elements) and Shells (Relate to Energy Levels and Bohr Models)

(Listen carefully, very well done and worth the effort.)

SPS1a

robinsonjs2 — 2019-01-04 20:57:17 UTC

More about those electrons

SPS1a

robinsonjs2 — 2019-01-04 20:58:39 UTC

Isotopes (Great explanation and examples!)

SPS1a

robinsonjs2 — 2019-01-04 21:00:02 UTC

Atomic # and Mass # [You are correct our EOCT periodic table does not give mass numbers. Also, we write the mass # and atomic # to the left of the symbol]

SPS1a

robinsonjs2 — 2019-01-04 21:02:30 UTC

Mass # and Atomic Mass (The actual calculation of atomic mass is part of the Chemistry course in GA, don't worry about being asked to do that! - Another, great explanation!)

SPS1a (4a)

robinsonjs2 — 2019-01-04 21:04:34 UTC

Atoms (identifying), Isotopes, Ions

Intro to the Periodic Table

SPS1a

robinsonjs2 — 2019-01-04 21:05:32 UTC

Practice with Isotopes & Ions (Check with me for answers!)

Ga Standards High School Physical Science

robinsonjs2 — 2019-01-11 20:38:01 UTC

SPS1a (4a)

robinsonjs2 — 2019-04-08 20:13:05 UTC

Atoms (identifying), Isotopes, Ions

Intro to the Periodic Table

SPS1a

robinsonjs2 — 2019-04-08 20:13:15 UTC

Practice with Isotopes & Ions (Check with me for answers!)

SPS1b

robinsonjs2 — 2019-04-08 20:13:20 UTC

Chemical Bonding (Mrs. Carter - Linked specifically to the GA standard)

SPS1b

robinsonjs2 — 2019-04-08 20:13:24 UTC

Chemical Bonding

SPS1a

robinsonjs2 — 2019-04-08 20:13:46 UTC

Practice with Isotopes & Ions (Check with me for answers!)

SPS2c

robinsonjs2 — 2019-04-08 20:14:25 UTC

Ionic Compounds, Formulas (LCM & Criss Cross Methods) and Names - Stop at 9:26!

SPS2c

robinsonjs2 — 2019-04-08 20:14:30 UTC

Practice Ionic Names & Formulas (Check with me for correct answers!)

SPS2c

robinsonjs2 — 2019-04-08 20:14:33 UTC

Covalent (or Molecular) Compounds, Formulas and names - Stop at 7:43!

SPS2c

robinsonjs2 — 2019-04-08 20:14:37 UTC

Practice Covalent Names & Formulas (Check with me for correct answers!)

SPS2de

robinsonjs2 — 2019-04-08 20:14:40 UTC

Law of Conservation of Matter

SPS2d

robinsonjs2 — 2019-04-08 20:14:44 UTC

Law of Conservation of Matter Problem (Check with me for answer!)

SPS2e

robinsonjs2 — 2019-04-08 20:15:03 UTC

"Counting Atoms"

SPS2e

robinsonjs2 — 2019-04-08 20:15:07 UTC

Balancing Chemical Equations

Reminder - The diatomic elements (HOF BrINCl) are always written with the subscript 2. For example, nitrogen as a reactant or product is N2. I can't get the 2 to show as a subscript, but you know what I mean.

SPS2e

robinsonjs2 — 2019-04-08 20:15:11 UTC

Practice Balancing Equations (answers included)

SPS2e

robinsonjs2 — 2019-04-08 20:15:18 UTC

Some Tips for Balancing Equations

SPS2e

robinsonjs2 — 2019-04-08 20:15:22 UTC

Types of Chemical Reactions

SPS3a

robinsonjs2 — 2019-04-08 20:15:37 UTC

Intro to Radioactivity

Go to the Source for video and web page.

SPS3a

robinsonjs2 — 2019-04-08 20:15:41 UTC

3 Types of Nuclear Radiation

SPS3a

robinsonjs2 — 2019-04-08 20:15:54 UTC

Beta Decay

Georgia: Use the e instead of the Greek letter.

SPS3a

robinsonjs2 — 2019-04-08 20:15:59 UTC

Alpha Decay

Georgia: Use He (symbol for helium) behind the 4 and 2 to represent the alpha particle in the equation.

SPS3b

robinsonjs2 — 2019-04-08 20:16:03 UTC

Fission & Fusion

SPS3b

robinsonjs2 — 2019-04-08 20:16:07 UTC

Fission & Fusion

SPS3b (and 3d)

robinsonjs2 — 2019-04-08 20:16:24 UTC

Fission or Fusion for Energy

SPS3c

robinsonjs2 — 2019-04-08 20:16:27 UTC

Half-life & Radioactive Decay

SPS3c

robinsonjs2 — 2019-04-08 20:16:30 UTC

Carbon Dating (Nuclear Decay and HalfLife)

SPS3c

robinsonjs2 — 2019-04-08 20:16:36 UTC

Half-life Problems - Examples

1st Problem: 44 days divided by 11 days per half-life = 4 half-lives

SPS3d

robinsonjs2 — 2019-04-08 20:16:43 UTC

Nuclear Energy (Excellent Summary - Go to the very end!)

SPS3d

robinsonjs2 — 2019-04-08 20:16:49 UTC

Nuclear Energy

SPS4a

robinsonjs2 — 2019-04-08 20:17:11 UTC

Metals, Metalloids & Nonmetals in the Periodic Table (Zig-Zag line is not drawn quite right, look at your EOCT periodic table; Po and At are also metalloids)

SPS4 - A little aside ...

robinsonjs2 — 2019-04-08 20:17:14 UTC

Mendeleev's Importance

SPS4a

robinsonjs2 — 2019-04-08 20:17:18 UTC

How many elements are there? Nuclear Forces

SPS5a

robinsonjs2 — 2019-04-08 20:17:38 UTC

Solids, Liquids & Gases

In a solid, the particles do move, they vibrate, back and forth around a fixed point. The particles in a liquid move more freely. The particles in a gas move the fastest and even farther apart.

SPS5a

robinsonjs2 — 2019-04-08 20:17:42 UTC

Plasma

SPS5a

robinsonjs2 — 2019-04-08 20:17:45 UTC

Heating & Cooling Cuves

SPS5b

robinsonjs2 — 2019-04-08 20:17:49 UTC

Gases - Pressure, Temperature, Volume & # of Molecules (Scientist's names are not the important part!). Select Source to link to the web page and video.

SPS6ab

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Solutions

SPS6a

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Conductivity of Solutions

SPS6a

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Solutions - Why don't oil and water mix?

SPS6b

robinsonjs2 — 2019-04-08 20:18:41 UTC

Rate of Solution Formation (Not the Same as Solubility)

SPS6b

robinsonjs2 — 2019-04-08 20:18:44 UTC

Observe Factors Affecting the Rate of Solution Formation (Start at 9:04)

SPS6c

robinsonjs2 — 2019-04-08 20:18:47 UTC

Solubility Curves

SPS6c

robinsonjs2 — 2019-04-08 20:18:51 UTC

Practice - Solubility Curves (Check with me for answers!)

SPS6d

robinsonjs2 — 2019-04-08 20:18:55 UTC

Properties of Acids and Bases

SPS6d

robinsonjs2 — 2019-04-08 20:19:01 UTC

Acids & Bases

SPS6d

robinsonjs2 — 2019-04-08 20:19:04 UTC

Neutralization (Acids & Bases)

SPS6e

robinsonjs2 — 2019-04-08 20:19:07 UTC

Testing for Acids and Bases

SPS7a

robinsonjs2 — 2019-04-08 20:19:21 UTC

Energy Transformation

SPS7b

robinsonjs2 — 2019-04-08 20:19:24 UTC

Conduction, Convection, Radiation

SPS7c

robinsonjs2 — 2019-04-08 20:19:27 UTC

Calculate Heat Capacity - Q (Don't memorize specific heats!)

SPS7d

robinsonjs2 — 2019-04-08 20:19:34 UTC

Phase Diagram

SPS7d

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Practice Phase Diagram #1

SPS7d

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Practice Phase Diagram #2

SPS7d

robinsonjs2 — 2019-04-08 20:19:42 UTC

Heating & Cooling Curve (Not the Same Thing as a Phase Diagram!)

SPS8a

robinsonjs2 — 2019-04-08 20:19:52 UTC

Velocity & Acceleration Calculations

SPS8a

robinsonjs2 — 2019-04-08 20:19:55 UTC

Distance - Time and Velocity - Time Graphs

SPS8a

robinsonjs2 — 2019-04-08 20:19:59 UTC

Practice - Motion Graphs

SPS8b

robinsonjs2 — 2019-04-08 20:20:03 UTC

Newton's Three Laws

SPS8b

robinsonjs2 — 2019-04-08 20:20:06 UTC

Newton's 3 Laws ( Go to Source)

SPS8b

robinsonjs2 — 2019-04-08 20:20:09 UTC

Newton's Second Law Problem

SPS8c

robinsonjs2 — 2019-04-08 20:20:15 UTC

Gravity (Go to Source)

SPS8c

robinsonjs2 — 2019-04-08 20:20:19 UTC

Falling Objects & Gravitational Force

SPS8c

robinsonjs2 — 2019-04-08 20:20:22 UTC

Terminal Velocity & Free Fall

SPS8c

robinsonjs2 — 2019-04-08 20:20:25 UTC

Free Falling in Outer Space

SPS8c

robinsonjs2 — 2019-04-08 20:20:29 UTC

Practice - Graphic Organizer: Free Fall

SPS8d

robinsonjs2 — 2019-04-08 20:20:32 UTC

Mass and Weight

SPS8e

robinsonjs2 — 2019-04-08 20:20:35 UTC

Simple Machines (lots of links!)

SP8e

robinsonjs2 — 2019-04-08 20:20:40 UTC

Practice - Mechanical Advantage Problems (Check with me for answers!)

SPS8e

robinsonjs2 — 2019-04-08 20:20:43 UTC

Mechanical Advantage & Pulleys

SPS9

robinsonjs2 — 2019-04-08 20:20:56 UTC

Waves - Tsunamis

SPS9abce

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Properties of Waves; Electromagnetic and Sound Waves

SPS9ab

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Properties of Waves; Transverse and Longitudinal

SPS9c

robinsonjs2 — 2019-04-08 20:21:05 UTC

Electromagnetic Waves

SPS9c

robinsonjs2 — 2019-04-08 20:21:10 UTC

Electromagnetic Spectrum

SPS9c

robinsonjs2 — 2019-04-08 20:21:13 UTC

Wave-Particle Duality of Light Go to Source!

SPS9c

robinsonjs2 — 2019-04-08 20:21:16 UTC

Light

SPS9c

robinsonjs2 — 2019-04-08 20:21:20 UTC

Visible Light

Select Source!

SPS9c

robinsonjs2 — 2019-04-08 20:21:23 UTC

Sound Waves

SPS9d

robinsonjs2 — 2019-04-08 20:21:29 UTC

Reflection (Regular and Diffuse), Refraction and Diffraction

SPS9d

robinsonjs2 — 2019-04-08 20:21:32 UTC

Lenses (and refraction)

SPS9d

robinsonjs2 — 2019-04-08 20:21:37 UTC

Wave Interference; Standing Wave

SPS9e

robinsonjs2 — 2019-04-08 20:21:40 UTC

Sound

SPS9e

robinsonjs2 — 2019-04-08 20:21:43 UTC

Speed of Sound

SPS9f

robinsonjs2 — 2019-04-08 20:21:46 UTC

Doppler Effect

SPS10abc

robinsonjs2 — 2019-04-08 20:22:02 UTC

Electricity - The Big Picture!

SPS10a

robinsonjs2 — 2019-04-08 20:22:06 UTC

Static Electricity - Examples of charging because of friction; Static Discharge

SPS10a

robinsonjs2 — 2019-04-08 20:22:09 UTC

Static Electricity

SPS10a

robinsonjs2 — 2019-04-08 20:22:12 UTC

Charging by Friction, Conduction and Induction

"Under Construction"

SPS10b

robinsonjs2 — 2019-04-08 20:22:17 UTC

Alternating and Direct Current - Simplest Explanation (Video will not run on iPads! Check this one out on a desktop.)

SPS10b

robinsonjs2 — 2019-04-08 20:22:22 UTC

Alternating and Direct Current - More complete explanation and some interesting related facts.

SPS10b

robinsonjs2 — 2019-04-08 20:22:29 UTC

V=IR (Ohm's Law)

SPS10b

robinsonjs2 — 2019-04-08 20:22:32 UTC

Sample Problems V=IR

SPS10b

robinsonjs2 — 2019-04-08 20:22:35 UTC

Schematic Diagrams, Series and Parallel Circuits

SPS10c

robinsonjs2 — 2019-04-08 20:22:39 UTC

Properties of Magnets

SPS10C

robinsonjs2 — 2019-04-08 20:22:42 UTC

Magnetism

SPS10c

robinsonjs2 — 2019-04-08 20:22:47 UTC

Permanent vs Temporary Magnets

SPS10c

robinsonjs2 — 2019-04-08 20:22:50 UTC

Direction of Current and Electrons; Right hand Rule; Electromagnets

SPS10c

robinsonjs2 — 2019-04-08 20:22:55 UTC

Electric Motor (Electrical Energy is converted to Mechanical Energy)

SPS10c

robinsonjs2 — 2019-04-08 20:22:58 UTC

Electric Motors

SPS10c

robinsonjs2 — 2019-04-08 20:23:01 UTC

Generators (Mechanical Energy is converted to Electrical Energy)

SPS10b

robinsonjs2 — 2019-04-08 20:23:06 UTC

Practice - Series Circuit Problems

SPS10b

robinsonjs2 — 2019-04-08 20:23:09 UTC

Practice - Parallel Circuit Problems

SPS10c

robinsonjs2 — 2019-04-08 20:23:15 UTC

Generators (Mechanical Energy is converted to Electrical Energy)

SPS10c

robinsonjs2 — 2019-04-08 20:23:18 UTC

Transformers

SPS10c

robinsonjs2 — 2019-04-08 20:23:21 UTC

Generators

SPS2b

robinsonjs2 — 2019-04-08 20:31:13 UTC

Formulas for Binary Ionic Compounds (Watch to the very end!)

SPS4a

robinsonjs2 — 2019-04-08 20:40:35 UTC

Groups in Periodic Table

SPS4a

robinsonjs2 — 2019-04-08 20:40:39 UTC

Valence Electrons & Periodic Table (Bohr Models)

SPS3c

robinsonjs2 — 2019-04-08 20:47:04 UTC

Half-Life Problems

SPS3d

robinsonjs2 — 2019-04-08 20:47:11 UTC

Nuclear Energy

robinsonjs2 — 2019-04-12 14:11:43 UTC

SPS10c SPS10c Generators more_vert SPS10c SPS10c Transformers more_vert SPS10c SPS10c Generators (Mechanical Energy is converted to Electrical Energy) more_vert SPS10b SPS10b Practice - Parallel Circuit Problems more_vert SPS10b SPS10b Practice - Series Circuit Problems more_vert SPS10c SPS10c Generators (Mechanical Energy is converted to Electrical Energy) more_vert SPS10c SPS10c Electric Motors more_vert SPS10c SPS10c Electric Motor (Electrical Energy is converted to Mechanical Energy) more_vert SPS10c SPS10c Direction of Current and Electrons; Right hand Rule; Electromagnets more_vert SPS10c SPS10c Permanent vs Temporary Magnets more_vert SPS10C SPS10C Magnetism more_vert SPS10c SPS10c Properties of Magnets more_vert SPS10b SPS10b Schematic Diagrams, Series and Parallel Circuits more_vert SPS10b SPS10b Sample Problems V=IR more_vert SPS10b SPS10b V=IR (Ohm's Law) more_vert SPS10b SPS10b Alternating and Direct Current - More complete explanation and some interesting related facts. more_vert SPS10b SPS10b Alternating and Direct Current - Simplest Explanation (Video will not run on iPads! Check this one out on a desktop.) more_vert SPS10a SPS10a Charging by Friction, Conduction and Induction "Under Construction" more_vert SPS10a SPS10a Static Electricity more_vert SPS10a SPS10a Static Electricity - Examples of charging because of friction; Static Discharge more_vert SPS10abc SPS10abc Electricity - The Big Picture! more_vert SPS9f SPS9f Doppler Effect more_vert SPS9e SPS9e Speed of Sound more_vert SPS9e SPS9e Sound more_vert SPS9d SPS9d Wave Interference; Standing Wave more_vert SPS9d SPS9d Lenses (and refraction) more_vert SPS9d SPS9d Reflection (Regular and Diffuse), Refraction and Diffraction more_vert SPS9c SPS9c Sound Waves more_vert SPS9c SPS9c Visible Light Select Source! more_vert SPS9c SPS9c Light more_vert SPS9c SPS9c Wave-Particle Duality of Light Go to Source! more_vert SPS9c SPS9c Electromagnetic Spectrum more_vert SPS9c SPS9c Electromagnetic Waves more_vert SPS9ab SPS9ab Properties of Waves; Transverse and Longitudinal more_vert SPS9abce SPS9abce Properties of Waves; Electromagnetic and Sound Waves more_vert SPS9 SPS9 Waves - Tsunamis more_vert SPS8e SPS8e Mechanical Advantage & Pulleys more_vert SP8e SP8e Practice - Mechanical Advantage Problems (Check with me for answers!) more_vert SPS8e SPS8e Simple Machines (lots of links!) more_vert SPS8d SPS8d Mass and Weight more_vert SPS8c SPS8c Practice - Graphic Organizer: Free Fall more_vert SPS8c SPS8c Free Falling in Outer Space more_vert SPS8c SPS8c Terminal Velocity & Free Fall more_vert SPS8c SPS8c Falling Objects & Gravitational Force more_vert SPS8c SPS8c Gravity (Go to Source) more_vert SPS8b SPS8b Newton's Second Law Problem more_vert SPS8b SPS8b Newton's 3 Laws ( Go to Source) more_vert SPS8b SPS8b Newton's Three Laws more_vert SPS8a SPS8a Practice - Motion Graphs more_vert SPS8a SPS8a Distance - Time and Velocity - Time Graphs more_vert SPS8a SPS8a Velocity & Acceleration Calculations more_vert SPS7d SPS7d Heating & Cooling Curve (Not the Same Thing as a Phase Diagram!) more_vert SPS7d SPS7d Practice Phase Diagram #2 more_vert SPS7d SPS7d Practice Phase Diagram #1 more_vert SPS7d SPS7d Phase Diagram more_vert SPS7c SPS7c Calculate Heat Capacity - Q (Don't memorize specific heats!) more_vert SPS7b SPS7b Conduction, Convection, Radiation more_vert SPS7a SPS7a Energy Transformation more_vert SPS6e SPS6e Testing for Acids and Bases more_vert SPS6d SPS6d Neutralization (Acids & Bases) more_vert SPS6d SPS6d Acids & Bases more_vert SPS6d SPS6d Properties of Acids and Bases more_vert SPS6c SPS6c Practice - Solubility Curves (Check with me for answers!) more_vert SPS6c SPS6c Solubility Curves more_vert SPS6b SPS6b Observe Factors Affecting the Rate of Solution Formation (Start at 9:04) more_vert SPS6b SPS6b Rate of Solution Formation (Not the Same as Solubility) more_vert SPS6a SPS6a Solutions - Why don't oil and water mix? more_vert SPS6a SPS6a Conductivity of Solutions more_vert SPS6ab SPS6ab Solutions more_vert SPS5b SPS5b Gases - Pressure, Temperature, Volume & # of Molecules (Scientist's names are not the important part!). Select Source to link to the web page and video. more_vert SPS5a SPS5a Heating & Cooling Cuves more_vert SPS5a SPS5a Plasma more_vert SPS4a SPS4a Valence Electrons & Periodic Table (Bohr Models) more_vert SPS5a SPS5a Solids, Liquids & Gases In a solid, the particles do move, they vibrate, back and forth around a fixed point. The particles in a liquid move more freely. The particles in a gas move the fastest and even farther apart. more_vert SPS4a SPS4a How many elements are there? Nuclear Forces more_vert SPS4 - A little aside ... SPS4 - A little aside ... Mendeleev's Importance more_vert SPS4a SPS4a Metals, Metalloids & Nonmetals in the Periodic Table (Zig-Zag line is not drawn quite right, look at your EOCT periodic table; Po and At are also metalloids) more_vert SPS4a SPS4a Groups in Periodic Table more_vert SPS3d SPS3d Nuclear Energy more_vert SPS3d SPS3d Nuclear Energy (Excellent Summary - Go to the very end!) more_vert SPS3c SPS3c Half-life Problems - Examples 1st Problem: 44 days divided by 11 days per half-life = 4 half-lives more_vert SPS3c SPS3c Carbon Dating (Nuclear Decay and HalfLife) more_vert SPS3c SPS3c Half-Life Problems more_vert SPS3d SPS3d Nuclear Energy more_vert SPS3c SPS3c Half-life & Radioactive Decay more_vert SPS3b (and 3d) SPS3b (and 3d) Fission or Fusion for Energy more_vert SPS3b SPS3b Fission & Fusion more_vert SPS3b SPS3b Fission & Fusion more_vert SPS3a SPS3a Alpha Decay Georgia: Use He (symbol for helium) behind the 4 and 2 to represent the alpha particle in the equation. more_vert SPS3a SPS3a Beta Decay Georgia: Use the e instead of the Greek letter. more_vert SPS3a SPS3a 3 Types of Nuclear Radiation more_vert SPS3a SPS3a Intro to Radioactivity Go to the Source for video and web page. more_vert SPS2e SPS2e Types of Chemical Reactions more_vert SPS2e SPS2e Some Tips for Balancing Equations more_vert SPS2e SPS2e Practice Balancing Equations (answers included) more_vert SPS2e SPS2e Balancing Chemical Equations Reminder - The diatomic elements (HOF BrINCl) are always written with the subscript 2. For example, nitrogen as a reactant or product is N2. I can't get the 2 to show as a subscript, but you know what I mean. more_vert SPS2e SPS2e "Counting Atoms" more_vert SPS2d SPS2d Law of Conservation of Matter Problem (Check with me for answer!) more_vert SPS2de SPS2de Law of Conservation of Matter more_vert SPS2c SPS2c Practice Covalent Names & Formulas (Check with me for correct answers!) more_vert SPS2c SPS2c Covalent (or Molecular) Compounds, Formulas and names - Stop at 7:43! more_vert SPS2c SPS2c Practice Ionic Names & Formulas (Check with me for correct answers!) more_vert SPS2c SPS2c Ionic Compounds, Formulas (LCM & Criss Cross Methods) and Names - Stop at 9:26! more_vert SPS2b SPS2b Formulas for Binary Ionic Compounds (Watch to the very end!) more_vert SPS1a SPS1a Practice with Isotopes & Ions (Check with me for answers!) more_vert SPS1b SPS1b Chemical Bonding more_vert SPS1a (4a) SPS1a (4a) Atoms (identifying), Isotopes, Ions Intro to the Periodic Table more_vert SPS1b SPS1b Chemical Bonding (Mrs. Carter - Linked specifically to the GA standard) more_vert SPS1a SPS1a Practice with Isotopes & Ions (Check with me for answers!) more_vert SPS1a (4a) SPS1a (4a) Atoms (identifying), Isotopes, Ions Intro to the Periodic Table more_vert SPS1a SPS1a Protons, electrons, neutrons (Follow link to You-Tube) Only in a neutral atom is the #p+ = #e- . You must know the number of protons to identify the element! more_vert SPS1a SPS1a Structure of the Atom (comprehensive) more_vert SPS1a SPS1a More about those electrons more_vert SPS1a SPS1a Atoms - Isotopes, Ions etc. more_vert SPS1a SPS1a Electrons (first 20 elements) and Shells (Relate to Energy Levels and Bohr Models) (Listen carefully, very well done and worth the effort.) more_vert SPS1a SPS1a Isotopes (Great explanation and examples!) more_vert SPS1a SPS1a Practice with Isotopes & Ions (Check with me for answers!) more_vert SPS1a SPS1a Mass # and Atomic Mass (The actual calculation of atomic mass is part of the Chemistry course in GA, don't worry about being asked to do that! - Another, great explanation!) arrow_back zoom_in open_in_new more_vert SPS1a SPS1a Atomic # and Mass # [You are correct our EOCT periodic table does not give mass numbers. Also, we write the mass # and atomic # to the left of the symbol] arrow_back zoom_in open_in_new more_vert Ga Standards High School Physical Science Ga Standards High School Physical Science more_vert EOCT Reference Sheet EOCT Reference Sheet more_vert Periodic Table Periodic Table more_vert