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Methodical recommendation:
Theory
| Number | Name | Description |
|---|---|---|
| 1. | Force | This theory gives the introduction for force. |
| 2. | Galileo's law of inertia | Basic ideas of Galileo |
| 3. | Balanced and unbalanced forces | Learn the differences of balanced and unbalanced forces. |
| 4. | First law of motion | This theory gives the basic ideas of laws of motion |
| 5. | Inertia and mass | This theory explains the nature of mass and inertia |
| 6. | Momentum | This theory gives an insight into the concept of momentum with a formula along with a scenario and an example. |
| 7. | Second law of motion | This theory explains momemtum in detail with some examples and introduces the second law of motion. |
| 8. | Mathematical formulation of second law | This theory derives the mathematical equation for the second law of motion using mass, velocity and time. |
| 9. | Applications of second law | This theory explains various instances which involves with the second law of motion and gives the mathematical equations as well. |
| 10. | Third law of motion | This theory explains in detail about the Newton's third law of motion with illustrations and activities. |
| 11. | Action and reaction forces | This theory gives various illustrations with activities to explain about the action and reaction forces. |
| 12. | Conservation of momentum | This theory clearly derives the law of conservation of momentum and tells the need for the conservation laws. |
Practice Questions
| Number | Name | Type | Difficulty | Marks | Description |
|---|---|---|---|---|---|
| 1. | Properties of force | 1st type - receptive | easy | 3 m. | To learn the basic nature and characteristics of force |
| 2. | Force calculation | 2nd type - interpretation | easy | 3 m. | Practice a problem to understand the second law of motion and calculate the force. |
| 3. | Law of inertia | 2nd type - interpretation | medium | 2 m. | Relates the Galileo’s law of motion |
| 4. | Balanced and unbalanced force | 2nd type - interpretation | medium | 2 m. | Solve the numerical based on balanced and unbalanced forces |
| 5. | Analysis of laws of motion | 3rd type - analysis | medium | 6 m. | Analyze the relation between two statements |
| 6. | Problem on velocity | 2nd type - interpretation | medium | 6 m. | Practice a problem to understand the second law of motion. |
| 7. | Problem on force | 2nd type - interpretation | medium | 6 m. | Apply the second law of motion to calculate the force. |
| 8. | Problem on acceleration (Second law of motion) | 2nd type - interpretation | medium | 6 m. | Calculate the acceleration of the object using second law of motion |
| 9. | Recoil velocity | 2nd type - interpretation | medium | 6 m. | Practice a problem to calculate the velocity of the object using laws of motion. |
| 10. | Horizontal velocity | 2nd type - interpretation | medium | 6 m. | Practice a problem to understand the law of conservation of momentum. |
| 11. | Problem based on law of conservation of momentum | 2nd type - interpretation | medium | 6 m. | Calculate the final velocity using the law of conservation of momentum. |
| 12. | Problem based on acceleration and force | 2nd type - interpretation | medium | 6 m. | Apply the equations of motion and second law of motion to calculate acceleration and force. |
| 13. | Problem based on Second law of motion | 2nd type - interpretation | medium | 6 m. | Calculate the acceleration and force using second law of motion. |
| 14. | Problem on frictional force | 2nd type - interpretation | medium | 6 m. | Apply the equations of motion and second law of motion to calculate the frictional force. |
| 15. | Equations of motion | 2nd type - interpretation | medium | 6 m. | Apply the equations of motion and second law of motion to calculate the force. |
| 16. | Momentum calculation | 2nd type - interpretation | medium | 5 m. | Calculate the momentum using the equations of motion. |
| 17. | Law of conservation of momentum | 2nd type - interpretation | medium | 8 m. | Calculate the final velocity using the law of conservation of momentum. |
| 18. | Change of momentum | 2nd type - interpretation | medium | 6 m. | Apply the law of conservation of momentum to calculate velocity. |
| 19. | Momentum after collision | 2nd type - interpretation | medium | 5 m. | Calculate the final velocity using the law of conservation of momentum. |
| 20. | Problem on force (equations of motion and second law of motion) | 2nd type - interpretation | medium | 8 m. | Apply the equations of motion and second law of motion to calculate the force. |
| 21. | Velocity-time graph | 2nd type - interpretation | hard | 6 m. | Calculate the force using the laws of motion. |
| 22. | Magnitude of force | 2nd type - interpretation | hard | 8 m. | Apply the equations of motion and second law of motion to calculate the magnitude of the force. |
| 23. | Uniform velocity | 2nd type - interpretation | hard | 8 m. | Calculate the force using the second law of motion. |
Questions for Teacher Use
| Number | Name | Type | Difficulty | Marks | Description |
|---|---|---|---|---|---|
| 1. | Laws of motion | Other | hard | 10 m. | An activity to understand about the Newton's three laws of motion. |
| 2. | Exercise on acceleration and force | Other | hard | 8 m. | Practice the exercise to understand the second law of motion. |
| 3. | Newton's laws on daily life | Other | hard | 9 m. | To apply and reason out the Newton's laws on everyday scenario. |
| 4. | Galileo's Law of Inertia | Other | medium | 1 m. | Practice the questions related to the transportation of substance across the plasma membrane. |
| 5. | Force and friction | Other | medium | 1 m. | Relates the Galileo’s law of motion |
| 6. | Deceleration | Other | easy | 1 m. | Practice a problem to understand the second law of motion and calculate the force. |
| 7. | Newton's First Law of Motion | Other | hard | 2 m. | Assertion and Reasoning type of analytical exercise from all the given cell organelles in this subtopic. |
| 8. | Newton's third law of motion | Other | hard | 2 m. | Assertion and Reasoning type of analytical exercise from the Newton's third law of motion. |
| 9. | Recoil velocity | Other | medium | 2 m. | Practice a problem to calculate the velocity of the object using laws of motion. |
Tests
| Number | Name | Recomended time: | Difficulty | Marks | Description |
|---|---|---|---|---|---|
| 1. | Training test 1 | 00:20:00 | medium | 11 m. | Examine the familiarity of student in the concept of forces. |
| 2. | Training test 2 | 00:20:00 | medium | 18 m. | Test the understanding in related to laws of motion. |
Periodic assessments
| Number | Name | Recomended time: | Difficulty | Marks | Description |
|---|---|---|---|---|---|
| 1. | Homework 1 | 00:40:00 | medium | 18 m. | Familiarising the law of motion and conservation momentum through homework. |
| 2. | Homework 2 | 00:40:00 | medium | 20 m. | Practice to attain better knowledge in basics of force, velocity and acceleration. |
| 3. | Homework 3 | 00:40:00 | medium | 20 m. | Practice to get the higher knowledge in laws of motion. |
| 4. | Homework 4 | 00:40:00 | medium | 8 m. | Homework to familiarise the concepts to calculate force and acceleration. |
| 5. | Progress test 1 | 00:45:00 | medium | 24 m. | Examine the understanding of student in related to law of conservation of momentum. |
| 6. | Progress test 2 | 00:45:00 | medium | 22 m. | Examine the knowledge of student in related to equations of motions. |
| 7. | Periodic Assessment | 00:10:00 | medium | 12 m. | PA 1 |
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