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| 1. | Demonstrate knowledge and understanding of the central concepts and theories appropriate to the study of physics (notably mechanical systems, wave systems, electricity and electromagnetism and atomic physics) at this level. |
| 2. | Apply physical science principles and theories to predict and explain mechanical systems (motion, work, energy, power and momentum), wave systems, electricity concepts and atomic physics (radioactivity and nuclear reactions) |
| 3. | Demonstrate scientific skills and attitudes, including techniques of operation, recording observations and aspects of safety. |
| 4. | Demonstrate problem-solving skills from experimental and theoretical approaches and correctly solve related calculations |
| 5. | Interpret and use a range of physical information from qualitative and quantitative investigations. |
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| | Assessment Task | Value (of total mark) | Related Learning Outcome/s |
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| 1. | Quiz (20 mins) | 5% | - 1 - Demonstrate knowledge and understanding of the central concepts and theories appropriate to the study of physics (notably mechanical systems, wave systems, electricity and electromagnetism and atomic physics) at this level.
- 2 - Apply physical science principles and theories to predict and explain mechanical systems (motion, work, energy, power and momentum), wave systems, electricity concepts and atomic physics (radioactivity and nuclear reactions)
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| 2. | Group Presentations x 2 (10 mins each) | 20% | - 1 - Demonstrate knowledge and understanding of the central concepts and theories appropriate to the study of physics (notably mechanical systems, wave systems, electricity and electromagnetism and atomic physics) at this level.
- 2 - Apply physical science principles and theories to predict and explain mechanical systems (motion, work, energy, power and momentum), wave systems, electricity concepts and atomic physics (radioactivity and nuclear reactions)
- 3 - Demonstrate scientific skills and attitudes, including techniques of operation, recording observations and aspects of safety.
- 4 - Demonstrate problem-solving skills from experimental and theoretical approaches and correctly solve related calculations
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| 3. | Practical Report x 2 (3-4 pages each) | 20% | - 1 - Demonstrate knowledge and understanding of the central concepts and theories appropriate to the study of physics (notably mechanical systems, wave systems, electricity and electromagnetism and atomic physics) at this level.
- 2 - Apply physical science principles and theories to predict and explain mechanical systems (motion, work, energy, power and momentum), wave systems, electricity concepts and atomic physics (radioactivity and nuclear reactions)
- 3 - Demonstrate scientific skills and attitudes, including techniques of operation, recording observations and aspects of safety.
- 4 - Demonstrate problem-solving skills from experimental and theoretical approaches and correctly solve related calculations
- 5 - Interpret and use a range of physical information from qualitative and quantitative investigations.
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| 4. | Mid Semester Test (90 mins) | 25% | - 1 - Demonstrate knowledge and understanding of the central concepts and theories appropriate to the study of physics (notably mechanical systems, wave systems, electricity and electromagnetism and atomic physics) at this level.
- 2 - Apply physical science principles and theories to predict and explain mechanical systems (motion, work, energy, power and momentum), wave systems, electricity concepts and atomic physics (radioactivity and nuclear reactions)
- 4 - Demonstrate problem-solving skills from experimental and theoretical approaches and correctly solve related calculations
- 5 - Interpret and use a range of physical information from qualitative and quantitative investigations.
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| 5. | Final Test (120 minutes) | 30% | - 1 - Demonstrate knowledge and understanding of the central concepts and theories appropriate to the study of physics (notably mechanical systems, wave systems, electricity and electromagnetism and atomic physics) at this level.
- 2 - Apply physical science principles and theories to predict and explain mechanical systems (motion, work, energy, power and momentum), wave systems, electricity concepts and atomic physics (radioactivity and nuclear reactions)
- 4 - Demonstrate problem-solving skills from experimental and theoretical approaches and correctly solve related calculations
- 5 - Interpret and use a range of physical information from qualitative and quantitative investigations.
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