A Level Physics_batch 2(Tripti)

Full Testing Environment

TabLearning Object Resource Filename

Resources physa_AS_ch1_4_ani_annihilation.zip

Resources physa_as_ch01_wq_positron.zip

Assessments physa_as_ch01_int_mattnrad.zip

Resources physa_as_ch01_keydiagram.zip

Resources physa_AS_ch2_4_ani_beta_decay.zip

Resources physa_as_ch02_wq_classifying.zip

Resources physa_as_ch2_wq_particlezoo.zip

Assessments physa_as_ch02_int_quarklepton.zip

interactive physa_as_ch02_keydiagram.zip

Resources physa_AS_ch3_1_ani_photoelectricity.zip

Resources physa_as_ch3_5_ani_spectra.zip

Resources physa_as_ch3_6_sim_electron_diffraction.zip

Resources physa_as_ch03_wq_accept.zip

Resources physa_as_ch3_wq_waveparticle.zip

Assessments physa_as_ch03_int_quantum.zip

Resources physa_as_ch03_rev_quatum.zip


Resources physa_as_ch04_resistivity.zip

Resources physa_as_ch04_wq_superconductivity.zip

Assessments physa_as_ch04_int_elecurrent.zip

Resources physa_as_ch04_rev_current.zip


Resources physa_as_ch5_3_sim_internal_resistance.zip

Resources physa_as_ch5_5_sim_potential_divider.zip

Resources physa_as_ch05_wq_car.zip

Resources physa_as_ch5_wq_sensors.zip

Assessments physa_as_ch05_dccircts.zip


Resources physa_as_ch6_2_sim_oscilloscope.zip

Assessments physa_as_ch06_accrnt.zip

Resources physa__as_ch06_keydiagram.zip

Resources physa_as_ch7_6_ani_inclined_plane.zip

Assessments physa_as_ch07_forcesequi.zip

Resources physa_as_ch07_rev_forces2.zip


Resources physa_as_ch8_3_ani_v-t_graphs.zip

Resources physa_as_ch8_8_ani_projectiles.zip

Assessments physa_as_ch08_onthemove.zip


Resources physa_as_ch9_5_sim_stopping.zip

Resources physa_as_ch09_wq_galileo.zip

Resources physa_as_ch09_wq_safety.zip

Assessments physa_as_ch09_motionfrce.zip


Resources physa_as_ch10_wq_wind.zip

Assessments physa_as_ch10_workenrgypwr.zip

Resources physa_as_ch10_rev_motion.zip


Resources physa_as_ch11_3_sim_stressstrain.zip

Assessments physa_as_ch11_materials.zip


Resources physa_as_ch12_6_ani_standing_waves.zip

Resources physa_as_ch12_wq_sound.zip

Assessments physa_as_ch12_waves.zip

Resources physa_as_ch12_rev_waves.zip


Resources physa_as_ch13_2_ani_refraction.zip

Resources physa_as_ch13_7_sim_grating.zip

Resources physa_as_ch13_wq_data.zip

Resources physa_as_ch13_wq_diffref.zip

Assessments physa_as_ch13_optics.zip

Resources physa_as_ch13_wq_optics.zipResources physa_as_ch13_keydiagram.zip

Resources physa_a2_ch01_ani_collis_launch.zip

Resources physa_a2_ch01_wq_carsa_launch.zipAssessments physa_a2_ch01_int_forcemom.zipResources physa_a2_ch01_int_rev_launch.zip

Resources physa_a2_ch02_wq_circular_launch.zipAssessments physa_a2_ch02_int_motionci.zipResources physa_a2_ch02_int_rev_launch.zip

Resources physa_a2_ch03_ani_shm_launch.zipAssessments physa_a2_ch03_int_simplehm.zipResources physa_a2_ch03_int_rev_launch.zip

Resources physa_a2_ch04_wq_spaceexp_launch.zip

Resources physa_a2_ch04_wq_planets_launch.zip

Resources physa_a2_ch04_wq_cartax_launch.zipAssessments physa_a2_ch04_int_gravity.zip

Resources physa_a2_ch04_int_rev_launch.zip

Resources physa_a2_ch05_ani_efiel_launch.zipAssessments physa_a2_ch05_int_elecfiel.zipResources physa_a2_ch05_int_rev_launch.zip


Resource title Course name

1.5 Animation: Annihilation and pair production A level Physics

1.4 How science works: The discovery of new particles A level Physics

Chapter 1: Test yourself: Matter and radiation A level Physics

Key diagrams: Chapter 1 A level Physics

2.4 Animation: Beta (b- and b+) decays A level Physics

2.2 How science works: Classifying particles A level Physics

2.1 Extension: Is it sensible to spend so much money discoveringA level Physics

Chapter 2: Test yourself: Quarks and leptons A level Physics


3.1 Animation: The photoelectric effect A level Physics

3.5 Animation: The line spectrum of the Hydrogen atom A level Physics

3.6 Simulation: Electron diffraction A level Physics

3.6 How science works: Acceptance or rejection? A level Physics

3.6 Extension: Wave or particle - surely we know by now? A level Physics

Chapter 3 Test yourself: Quantum phenomena A level Physics

Chapter 3: Revision podcast: Quantum phenomena A level Physics


4.3 Simulation: Resistivity A level Physics

4.3 How science works: Superconductivity A level Physics

Chapter 4: Test yourself: Electric current A level Physics

Chapter 4: Revision podcast: Electric current A level Physics


5.3 Simulation: Internal resistance A level Physics

5.5 Simulation: Potential Divider A level Physics

5.1 How science works: Electric and hybrid cars A level Physics

5.5 Extension: Could there ever be more sensors than insects in BA level Physics

Chapter 5 Test Yourself: Direct current circuits A level Physics


6.2 Simulation: Oscilloscope A level Physics

Chapter 6: Test yourself: Alternating currents A level Physics


7.6 Animation: Inclined plane A level Physics

Chapter 7 Test yourself: Forces in equilibrium A level Physics

Chapter 7: Revision podcast: Forces in equilibrium A level Physics


8.3 Animation: Speed-time graphs and equations of motion A level Physics

8.8 Animation: Projectiles A level Physics

Chapter 8 Test yourself: On the move A level Physics


9.5 Simulation: Stopping distance A level Physics

9.1 How science works: Galileo to Newton A level Physics

9.5 How science works: Safe driving A level Physics

Chapter 9: Test yourself: Motion and force A level Physics


10.5 How science works: Wind energy A level Physics

Chapter 10: Test yourself: Work, energy and power. A level Physics

Chapter 10: Revision podcast: Motion and force A level Physics


11.3 Simulation: Stress and strain A level Physics

Chapter 11: Test yourself: Materials A level Physics


12.6 Animation: Stationary waves A level Physics

12.3 How science works: Sound and noise A level Physics

Chapter 12: Test yourself: Waves A level Physics

Chapter 12: Revision podcast: Waves A level Physics


13.2 Animation: Refraction A level Physics

13.7 Simulation: Diffraction grating A level Physics

13.3 How science works: Secure data transmission A level Physics

13.7 Extension: Old physics principles still in use today A level Physics

Chapter 13: Test yourself: Optics A level Physics

Chapter 13: WebQuest: Optics and refraction A level PhysicsKey diagrams: Chapter 13 A level Physics

Animation: Collisions A level Physics

WebQuest HSW: Drive Safer! A level PhysicsTest yourself: Chapter 1 A level PhysicsRevision mp3: Collisions A level Physics

WebQuest S&C: A wild ride on the scream machine A level PhysicsTest yourself: Chapter 2 A level PhysicsRevision mp3: Centripetal force A level Physics

Animation: Simple Harmonic Motion A level PhysicsTest yourself: Chapter 3 A level PhysicsRevision mp3: Simple harmonic motion A level Physics

WebQuest HSW: Is space exploration worth the cost?

WebQuest HSW: Investigation into patterns in planetary data

WebQuest HSW: Car tax and location trackingTest yourself: Chapter 4

Revision mp3: Satellite motion

Animation: Electric fields and potentialsTest yourself: Chapter 5Revision mp3: Gravitational and electric potential


Folder 1 Folder 2

Physics AS

Physics AS

Physics AS

Physics AS

Physics AS

Physics AS

Physics AS

Physics AS

Physics AS

Physics AS

Physics AS

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Unit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricity

Unit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricity

Unit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricity

Physics AS

Physics AS

Physics AS

Physics AS

Physics AS

Physics AS

Physics AS

Physics AS

Physics AS

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Physics AS Unit 2 Mechanics, materials and waves









Unit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricity

Unit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricityUnit 1 Particles, quantum phenomena and electricity


Physics AS Unit 2 Mechanics, materials and wavesPhysics AS Unit 2 Mechanics, materials and waves

Physics A2 Unit 4: Fields and further mechanics

Physics A2 Unit 4: Fields and further mechanicsPhysics A2 Unit 4: Fields and further mechanicsPhysics A2 Unit 4: Fields and further mechanics





Physics A2 Unit 4: Fields and further mechanicsPhysics A2 Unit 4: Fields and further mechanics


Folder 3 Folder 4

1. Matter and radiation



1. Matter and radiation Key diagrams

2. Quarks and leptons




2. Quarks and leptons Key diagrams

3. Quantum phenomena







3. Quantum phenomena Key diagrams

4. Electric current

4. Electric current

4. Electric current

4. Electric current

4. Electric current Key diagrams

5. Direct current circuits





5. Direct current circuits Key diagrams

6. Alternating currents

6. Alternating currents

6. Alternating currents Key diagrams

7. Forces in equilibrium



7. Forces in equilibrium Key diagrams

8. On the move

8. On the move

8. On the move

8. On the move Key diagrams

9. Motion and force

9. Motion and force

9. Motion and force

9. Motion and force

9. Motion and force Key diagrams

10. Work, energy and power



10. Work, energy and power Key diagrams

11. Materials

11. Materials

11. Materials Key diagrams

12. Waves

12. Waves

12. Waves

12. Waves

12. Waves Key diagrams

13. Optics

13. Optics

13. Optics

13. Optics

13. Optics

13. Optics13. Optics Key diagrams

1. Force and momentum

1. Force and momentum1. Force and momentum1. Force and momentum

2. Motion in a circle2. Motion in a circle2. Motion in a circle

3. Simple harmonic motion3. Simple harmonic motion3. Simple harmonic motion

4. Gravitational fields


4. Gravitational fields4. Gravitational fields


5. Electric fields5. Electric fields5. Electric fields6. Capacitors


Description

Multiple-choice revision quiz on Chapter 1.

Key diagrams for Chapter 1

Understanding the different types of particles that populate modern physics.


Key diagrams: Chapter 2

Animation: how the spectrum of hydrogen is related to its energy levels.

Multiple-choice revision quiz on chapter 3.



Animation to explain the annihilation of electrons and positrons; how this is applied medically with Positron Electron Tomography (PET); and the reverse process of pair production.Learning about the discovery of new particles using the prediction and detection of the positron as an example.

Showing how beta decay works at the quark level, and thus how protons decay into neutrons, and neutrons into protons, within nuclei.

Weighing up the costs and benefits of the huge sums involved in building big accelerators for particle physics.

Animation on the photoelectric effect, showing Einstein's revolutionary explanation which earned him the Nobel Prize in 1922.

Simulation to show electron diffraction, demonstrating how the resulting pattern depends on the metal lattice structure.

What are the issues behind a theory being accepted or rejected? This webquest looks at two examples: wave-particle duality and cold fusion, with their contrasting fates.Exploring the strange world of quantum physics, and how light can act like a particle and an electron like a wave.

Revision podcast. Students revise the photoelectric effect and its significance in explaining the particle nature of light. They listen to an audio file as part of their revision.

Simulation showing how the resistivity of a wire depends on the material, its length and cross-section.Discovering the history of superconductivity and learning about its technological applications.


Simple simulation to show a straightforward potential divider circuit







Animation to explain speed-time graphs and the equations of motion.



Revision podcast. Students revise the main principles and definitions for electric current and specific applications. They listen to an audio file as part of their revision.

Simulation to show internal resistance, and what characteristics are needed for a car battery

Researching the electric car and understanding why they have not achieved widespread popularity.Researching the different types of sensors that are available - how they work and their various technological applications.

Simulation of an oscilloscope. This is to show how the main controls (y-sensitivity and time base) should be used to optimally display different waveforms.

Animation to explain the physics associated with bodies on an inclined plane, using a skier as an example.

Revision podcast. Students revise methods of combining forces acting at a point, resolving vectors into their perpendicular components, the principle of moments, and equilibrium and stability. They listen to an audio file as part of their revision.

Understanding projectile motion, using a ski-jumper and an aid drop to famine victims as examples.

Simulation to show what affects car braking distance, such as worn tyres, alcohol and talking on a mobile phone.

How science works webquest on safe driving.







Webquest on sound and noise.



Simulation to show how a diffraction grating produces spectra.

How science works webquest on data security.

Webquest on how Galileo and Newton investigated motion and gravity, and developed their theories.

This How science works webquest enables students to research the issues surrounding the use of wind energy as a renewable energy source, looking at both the physical system and the environmental impact.

Revision podcast. Students revise equations of motion, projectile motion, Newton's laws of motion, work, energy and power, and the conservation of energy. They listen to an audio file as part of their revision.

Simulation on determining the Young modulus of different materials from stress-strain graphs.

Animation - explaining standing waves on strings, and their use in musical instruments.

Revision podcast. Students revise properties of waves, the difference between transverse and longitudinal waves, the wave equation, superposition, constructive and destructive interference, and typical interference patterns. They listen to an audio file as part of their revision.

Animation to explain refraction, the critical angle and total internal reflection, comparing three different materials (water, glass, diamond).

Extension webquest to research Huygens' principle, developed in the 17th century, which is still useful for understanding interference and diffraction.



Multiple-choice revision quiz on Chapter 1.An MP3 file covering the topic which is also available to download.




WebQuest. Research activity in which students find out about total internal reflection, and the structure and application of optical fibres. They are asked to create a presentation and slideshow for Year 12 students.

This animation shows you how the principle of conservation of momentum and Newton's laws apply when a golf ball is driven.

Students are asked to research the physics concepts involved in safe driving and car accidents, focusing on features that involve momentum calculations and stopping distances. They are asked to identify and explain some safety features of a car, using mathematical examples. They then consider how the physics of these features can be communicated to others. They will create a PowerPoint presentation communicating scientific information and demonstrate how drivers' decisions can make driving safer.

Students are asked to research either an actual roller coaster or to design one. They will consider the g-forces involved and safety, as well as calculating values of speed and acceleration on their ride of choice. It involves calculation as well as just using simulations from the web.

The dynamics of SHM are explained along with the displacement, velocity and acceleration-time graphs and energy transfers.

Students are provided with selections of sources regarding the high costs involved with space exploration. Student teams are split into two groups and asked to prepare presentations to either support or oppose a programme for space exploration. The activity ends in a debate between the two groups in order to try to determine whether the space programme is worth the costs.Students are directed to a selection of websites with data on the planets in our Solar System. They are asked to investigate the data by plotting graphs in order to investigate any patterns within the data.

Students are guided on a journey through a number of web sites about a proposed car tracking system. They look at the situation from the viewpoint of different members of society and are set tasks to complete and questions to answer. They consider the way in which science and society interact and the balance between the benefits of a scientific solution and the moral and ethical issues that it presents. Finally they are asked to form a judgment based on their findings.

An MP3 file covering the topic which is also available to download.


This animation shows how electric field is related to electric potential for a uniform electric field and for a radial electric field.


Format Type Batch

interactive Animation yes 2

interactive Webquest yes 2

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interactive Key diagrams 2








interactive Simulation yes 2




interactive Audio stimulus yes 2





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interactive Animation yes

interactive Simulation yes

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interactive Webquest yesinteractive Key diagrams

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interactive Webquest yesProgress tracking Test yourself n/ainteractive Audio Stimulus yes

interactive Webquest yesProgress tracking Test yourself n/ainteractive Audio Stimulus yes

interactive Animation yesProgress tracking Test yourself n/ainteractive Audio Stimulus yes



interactive Webquest yesProgress tracking Test yourself n/a

interactive Audio Stimulus yes

interactive Animation yesProgress tracking Test yourself n/ainteractive Audio Stimulus yes


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A Level Physics_batch 2(Tripti)

Documents

Transcript of A Level Physics_batch 2(Tripti)