Week 4 Term 1 2024

 Homework:

• Activity 11A, p.188-189 Waves & Photons
• Activity 11B, p.192 Photoelectric Effect
• Exercise 5B, p.205-208 Photoelectric Effect
• Ex 5C, p.212-215 Photoelectric Effect
• Act 11C, p.196 Atomic Line Spectra
• Act 11D, p.200-201 Bohr Model of Hydrogen Atom
• Ex 5D, p.221-222 Atomic Models
• Ex 5E, p.228-230 Atomic Line Spectra
• Activity 12 A, p.194, Mass-Energy Equivalence
• Activity 12B, p.213-214, Nuclear Reactions

Nuclear Reaction E = mc²

Nuclear Chemistry Part 1

Nuclear Chemistry Part 2

Binding Energy per Nucleon

Binding Energy per Nucleon is a negative energy or a debt of energy. This is the amount of energy it would take to liberate a nucleon from the nucleus. This energy was originally radiated off when the nucleus formed.

The energy radiated off, the Binding energy, is lost energy and comes from mass that is lost by the nucleons. Mass per Nucleon shows what is left over once a bound nucleon has radiated away some of its mass.

A 'cheatsheet' on Binding Energy in nuclear physics

Nuclear binding energy Explained

How to solve a mass defect and binding energy problem

Binding Energy per Nucleon

Binding Energy, Fission and the Strong Nuclear Force

Fission:The breaking up of a larger nucleus into smaller daughter nuclei. Anything above Iron will radiate off energy.

Fusion:
The joining of smaller nuclei into a larger nucleus. Anything below Iron will radiate off energy.

Fission & Fusion

Fission

A 'cheatsheet' on Binding Energy in nuclear physics

Week 4 Term 1 2023

   Homework:

• Act 11A, p.176 Waves & Photons
• Act 11B, p.179 Photoelectric Effect
• Ex 5B, p.205-208 Photoelectric Effect
• Ex 5C, p.212-215 Photoelectric Effect
• Act 11C, p.183 Atomic Line Spectra
• Act 11D, p.188-189 Bohr Model of Hydrogen Atom
• Ex 5D, p.221-222 Atomic Models
• Ex 5E, p.228-230 Atomic Line Spectra
• Act 12A p.207-208 E=mc^2
• Act 12B p.213-214 Nuclear Reactions
• Ex 5F p.234-236 E=mc^2
• Ex 5G p.242-246 Nuclear Reactions

When is now Relativity and Neurology

Nuclear Fission

Nuclear Fission; splitting the atom for beginners

Nuclear Physics: Crash Course Physics #45

Nuclear Chemistry: Crash Course Chemistry #38

Nuclear Chemistry Part 2: Fusion and Fission - Crash Course Chemistry #39

Nuclear Fission

• The breaking up of a larger nucleus into smaller nuclei
• The decrease in mass per nucleon, matches the increase in binding energu per nucleon
• This binding energy per nucleon is a negative energy and represents energy that is lost (radiated away) during the reaction. 
• Binding energy per nucleon also represents the energy that would need to be added to liberate a nucleon from the nucleus

Nuclear Fission

Fission & Fusion

Nuclear Fusion

• The joining of smaller nuclei into a larger nucleus
• The decrease in mass per nucleon, matches the increase in binding energu per nucleon
• This binding energy per nucleon is a negative energy and represents energy that is lost (radiated away) during the reaction. 
• Binding energy per nucleon also represents the energy that would need to be added to liberate a nucleon from the nucleus

Nuclear Fusion

Fusion Energy

Binding Energy per Nucleon

Nuclear Reaction E = mc²

Binding Energy per Nucleon

Binding Energy per Nucleon is a negative energy or a debt of energy. This is the amount of energy it would take to liberate a nucleon from the nucleus. This energy was originally radiated off when the nucleus formed.

The energy radiated off, the Binding energy, is lost energy and comes from mass that is lost by the nucleons. Mass per Nucleon shows what is left over once a bound nucleon has radiated away some of its mass.

Mass per Nucleon

Fission:The breaking up of a larger nucleus into smaller daughter nuclei. Anything above Iron will radiate off energy.

Fusion:
The joining of smaller nuclei into a larger nucleus. Anything below Iron will radiate off energy.

Fission & Fusion

Fission

Term 1 Week 5 2022

  Homework:

• Act 11A, p.176 Waves & Photons (last week)
• Act 11B, p.179 Photoelectric Effect (last week)
• Ex 5B, p.205-208 Photoelectric Effect (last week)
• Ex 5C, p.212-215 Photoelectric Effect (last week)
• Act 11C, p.183 Atomic Line Spectra (last week)
• Act 11D, p.188-189 Bohr Model of Hydrogen Atom (last week)
• Ex 5D, p.221-222 Atomic Models (last week)
• Ex 5E, p.228-230 Atomic Line Spectra (last week)
• Act 12A p.207-208 E=mc^2
• Act 12B p.213-214 Nuclear Reactions
• Ex 5F p.234-236 E=mc^2
• Ex 5G p.242-246 Nuclear Reactions

When is now Relativity and Neurology

Nuclear Fission

Nuclear Fission; splitting the atom for beginners

Nuclear Physics: Crash Course Physics #45

Nuclear Chemistry: Crash Course Chemistry #38

Nuclear Chemistry Part 2: Fusion and Fission - Crash Course Chemistry #39

Nuclear Fission

• The breaking up of a larger nucleus into smaller nuclei
• The decrease in mass per nucleon, matches the increase in binding energu per nucleon
• This binding energy per nucleon is a negative energy and represents energy that is lost (radiated away) during the reaction. 
• Binding energy per nucleon also represents the energy that would need to be added to liberate a nucleon from the nucleus

Nuclear Fission

Fission & Fusion

Nuclear Fusion

• The joining of smaller nuclei into a larger nucleus
• The decrease in mass per nucleon, matches the increase in binding energu per nucleon
• This binding energy per nucleon is a negative energy and represents energy that is lost (radiated away) during the reaction. 
• Binding energy per nucleon also represents the energy that would need to be added to liberate a nucleon from the nucleus

Nuclear Fusion

Fusion Energy

Binding Energy per Nucleon

Nuclear Reaction E = mc²

Binding Energy per Nucleon

Binding Energy per Nucleon is a negative energy or a debt of energy. This is the amount of energy it would take to liberate a nucleon from the nucleus. This energy was originally radiated off when the nucleus formed.

The energy radiated off, the Binding energy, is lost energy and comes from mass that is lost by the nucleons. Mass per Nucleon shows what is left over once a bound nucleon has radiated away some of its mass.

Mass per Nucleon

Fission:The breaking up of a larger nucleus into smaller daughter nuclei. Anything above Iron will radiate off energy.

Fusion:
The joining of smaller nuclei into a larger nucleus. Anything below Iron will radiate off energy.

Fission & Fusion

Fission

Term 1 Week 5 2021

  Homework:

• Activity 11A, p.176 Waves & Photons (last week)
• Activity 11B, p.179 Photoelectric Effect (last week)
• Activity 11C, p.183 Atomic Line Spectra
• Activity 11D, p.188-189 Bohr Model of Hydrogen Atom
• Activity 12A, p.194 E = mc^2

When is now Relativity and Neurology

Nuclear Fission

Nuclear Fission; splitting the atom for beginners

Nuclear Physics: Crash Course Physics #45

Nuclear Chemistry: Crash Course Chemistry #38

Nuclear Chemistry Part 2: Fusion and Fission - Crash Course Chemistry #39

Nuclear Fission

• The breaking up of a larger nucleus into smaller nuclei
• The decrease in mass per nucleon, matches the increase in binding energu per nucleon
• This binding energy per nucleon is a negative energy and represents energy that is lost (radiated away) during the reaction. 
• Binding energy per nucleon also represents the energy that would need to be added to liberate a nucleon from the nucleus

Nuclear Fission

Fission & Fusion

Nuclear Fusion

• The joining of smaller nuclei into a larger nucleus
• The decrease in mass per nucleon, matches the increase in binding energu per nucleon
• This binding energy per nucleon is a negative energy and represents energy that is lost (radiated away) during the reaction. 
• Binding energy per nucleon also represents the energy that would need to be added to liberate a nucleon from the nucleus

Nuclear Fusion

Fusion Energy

Binding Energy per Nucleon

Nuclear Reaction E = mc²

Binding Energy per Nucleon

Binding Energy per Nucleon is a negative energy or a debt of energy. This is the amount of energy it would take to liberate a nucleon from the nucleus. This energy was originally radiated off when the nucleus formed.

The energy radiated off, the Binding energy, is lost energy and comes from mass that is lost by the nucleons. Mass per Nucleon shows what is left over once a bound nucleon has radiated away some of its mass.

Mass per Nucleon

Fission:The breaking up of a larger nucleus into smaller daughter nuclei. Anything above Iron will radiate off energy.

Fusion:
The joining of smaller nuclei into a larger nucleus. Anything below Iron will radiate off energy.

Fission & Fusion

Fission

Term 1 Week 4 2019

Homework:

• Activity 11A, p.176 Waves & Photons (last week)
• Activity 11B, p.179 Photoelectric Effect (last week)
• Activity 11C, p.183 Atomic Line Spectra
• Ex 5A, p.197-198 Quantum (Revision)
• Ex 5B, p.205-108 Photo-electric effect (Revision)
• Ex 5D, p.221-222 Bohr Model of Hydrogen Atom (last week)
• Ex 5E, p.228-230 Bohr Energy Levels
• Activity 12B, p.199-200 Nuclear Reactions
• Ex 5F, p.234-236 Mass-Energy
• Ex 5G, p.242-246 E = mc^2

Revision for the Atomic & Nuclear Assessment Week 7

Nuclear Fission

Nuclear Fission; splitting the atom for beginners

Nuclear Physics: Crash Course Physics #45

Nuclear Chemistry: Crash Course Chemistry #38

Nuclear Chemistry Part 2: Fusion and Fission - Crash Course Chemistry #39

Nuclear Fission

• The breaking up of a larger nucleus into smaller nuclei
• The decrease in mass per nucleon, matches the increase in binding energu per nucleon
• This binding energy per nucleon is a negative energy and represents energy that is lost (radiated away) during the reaction. 
• Binding energy per nucleon also represents the energy that would need to be added to liberate a nucleon from the nucleus

Nuclear Fission

Fission & Fusion

Nuclear Fusion

• The joining of smaller nuclei into a larger nucleus
• The decrease in mass per nucleon, matches the increase in binding energu per nucleon
• This binding energy per nucleon is a negative energy and represents energy that is lost (radiated away) during the reaction. 
• Binding energy per nucleon also represents the energy that would need to be added to liberate a nucleon from the nucleus

Nuclear Fusion

Fusion Energy

Binding Energy per Nucleon

Nuclear Reaction E = mc²

Nuclear Chemistry Part 1

Binding Energy per Nucleon

Binding Energy per Nucleon is a negative energy or a debt of energy. This is the amount of energy it would take to liberate a nucleon from the nucleus. This energy was originally radiated off when the nucleus formed.

The energy radiated off, the Binding energy, is lost energy and comes from mass that is lost by the nucleons. Mass per Nucleon shows what is left over once a bound nucleon has radiated away some of its mass.

Fission:The breaking up of a larger nucleus into smaller daughter nuclei. Anything above Iron will radiate off energy.

Fusion:
The joining of smaller nuclei into a larger nucleus. Anything below Iron will radiate off energy.

Fission & Fusion

Fission