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HB science resources

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A Science teacher since 2016 creating and sharing resources he uses with his own classes.

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A Science teacher since 2016 creating and sharing resources he uses with his own classes.
Orbital Stability and speeds - Astrophysics
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Orbital Stability and speeds - Astrophysics

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A comprehensive lesson which teaches students about orbits, how their instantaneous velocity impacts their orbital radius and stability and how to calculate orbital speeds. Learning objective: Explain why orbital speeds change during elliptical orbits. By the end of the lesson learners should be able to: Success criteria: I can describe how orbital speeds change with the size of the orbit. I can compare the different types of orbits. I can calculate orbital speeds. Powerpoint contains 28 slides. Contains past paper questions that target this topic, some questions require knowledge from prior lessons.
The Generator effect - induced current
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The Generator effect - induced current

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A comprehensive lesson which teaches students about how current can be induced in a wire, the factors that influence the magnitude of this current and how it is used in industry. Progress checks are available following each success criteria Tasks are differentiated to suit the needs of each learner. Learning objective: Develop an understanding of how electricity can be generated. By the end of the lesson learners should be able to: Success criteria: I can identify how current can be generated in a wire. I can describe factors that influence the current generated. I can evaluate the best way to generate electricity. Powerpoint contains 22 slides. Contains past paper questions that target this topic, some questions require knowledge from prior lessons.
The Motor Effect Flemings left hand rule
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The Motor Effect Flemings left hand rule

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A comprehensive lesson which teaches students about Fleming’s Left Hand Rule, the motor effect and applying this to a simple motor. Students will also be able to use the F = BIL equation quantify the amount of force experienced by a wire. Progress checks are available following each success criteria Tasks are differentiated to suit the needs of each learner. Learning objective: Use and apply the left hand rule in order to justify the movement of a wire within a magnetic field. By the end of the lesson learners should be able to: Success criteria: I can identify the components of the left hand rule. I can justify the motion of the wire based on the rule. I can explain why motors are able to spin. Powerpoint contains 22 slides and a collection of past paper questions including the marking scheme.
Forces Introduction
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Forces Introduction

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A comprehension lesson that teaches students how to measure force using practical equipment as well as calculate resultant forces. Progress checks are available following each success criteria Tasks are differentiated to suit the needs of each learner. Learning objective: Develop an understanding of how forces interact within a pair or multiples in perpendicular directions. By the end of the lesson learners should be able to: Success criteria: State how forces are represented. Describe how to calculate the resultant force. Calculate forces in horizontal and vertical directions. Powerpoint contains 30 slides.
Speed Introduction
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Speed Introduction

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A comprehension lesson that teaches students how to measure speed by using the formula triangle with some reference to practical applications. Support sheets are also included to guide students should it be needed. Tasks are differentiated to suit the needs of each learner. By the end of the lesson students should be able to: Success criteria: I can calculate speed using the equation triangle. I can analyse how to measure speed effectively using specific equipment I can justify why objects appear to be travelling faster or slower with reference to relative motion. Learning objective: To apply the idea of speed to real life instances. Powerpoint contains 18 slides and a lesson plan is also attached.
Sankey Diagrams
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Sankey Diagrams

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A comprehension lesson that teaches students how to create and analyse Sankey Diagrams. The concept is introduced in the context of money to firstly engage the students (dirham currency is used as the students I taught were in the UAE, however, this should be fairly simple to understand as it is labelled below). Support sheets are also included to guide students should it be needed. Tasks are differentiated to suit the needs of each learner. Progress checks are placed after each success criteria checkpoint to assess understanding. By the end of the lesson students should be able to: Success criteria: I can critically analyse a Sankey diagram to identify quantifiable components. I can construct and adapt Sankey diagrams I can calculate efficiency of a system from its Sankey diagram. Learning objective: Develop and interpret Sankey diagrams to visualize and analyze complex data flows. Powerpoint contains 33 slides and a lesson plan is also attached.
Fluid Dynamics
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Fluid Dynamics

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Originally created for the BTEC Applied Science level 3 qualification Unit 5 - Physics. By the end of the lesson learners should be able to: Recall what is meant by mass flow continuity. Describe factors that can affect volume flow and pressure. Use the Bernoulli principle to justify how an aeroplane experiences lift. The resource contains past paper questions and mark scheme answers. Slides were originally created using google slides, opening in microsoft powerpoint might cause slight misalignment - open in google slides to avoid this.
Non Newtonian Fluids
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Non Newtonian Fluids

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Originally created for the BTEC Applied Science level 3 qualification Unit 5 - Physics. By the end of the lesson learners should be able to: Recall the difference between Newtonian and Non-Newtonian fluids Describe pseudoplastic, dilatant, thixotropic, and rheopectic fluids. Justify the uses of these different fluids. The resource contains past paper questions and mark scheme answers. Slides were originally created using google slides, opening in microsoft powerpoint might cause slight misalignment - open in google slides to avoid this.
Fluid Flow
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Fluid Flow

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Originally created for the BTEC Applied Science level 3 qualification Unit 5 - Physics. By the end of the lesson learners should be able to: Recall what is meant by streamline and turbulent flow. Describe what contributes to streamline and turbulent flow. Justify why viscosity is a factor that affects the flow of a fluid. The resource contains past paper questions and mark scheme answers. Slides were originally created using google slides, opening in microsoft powerpoint might cause slight misalignment - open in google slides to avoid this.
Material Failure
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Material Failure

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Originally created for the BTEC Applied Science level 3 qualification Unit 5 - Physics. By the end of the lesson learners should be able to: Recall that imperfections can lead to cracks forming in a material. Describe how tension is expressed in a material and how cracks can lead to a concentration of stress which eventually leads to brittle fractures. Justify why creep and fatigue are factors that must be accounted for by engineers. The resource contains past paper questions and mark scheme answers. Slides were originally created using google slides, opening in microsoft powerpoint might cause slight misalignment - open in google slides to avoid this.
Shape Change Malleability and Ductility
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Shape Change Malleability and Ductility

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Originally created for the BTEC Applied Science level 3 qualification Unit 5 - Physics. By the end of the lesson learners should be able to: Recall the trends shown during a strain/stress curve. Compare malleability and ductility. Explain why malleability and ductility are important in producing, tubes, screw caps and lead sheets. The resource contains past paper questions and mark scheme answers. Slides were originally created using google slides, opening in microsoft powerpoint might cause slight misalignment - open in google slides to avoid this.
Elasticity and Young's Modulus
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Elasticity and Young's Modulus

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Originally created for the BTEC Applied Science level 3 qualification Unit 5 - Physics. By the end of the lesson learners should be able to: Recall Hooke’s law and identify limits of proportionality and plastic deformation on a graph. Describe how to calculate Young’s Modulus from a tensile stress-strain curve. Explain why rubber is effective at cushioning shocks. The resource contains past paper questions and mark scheme answers. Slides were originally created using google slides, opening in microsoft powerpoint might cause slight misalignment - open in google slides to avoid this.
Moving Heat
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Moving Heat

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Originally created for the BTEC Applied Science level 3 qualification Unit 5 - Physics. By the end of the lesson learners should be able to: Recall the equipment needed for moving heat. Describe how altering the set-up of the system can lead to refrigeration or a heat pump being created. Use the coefficient of performance calculations for a heating system. The resource contains past paper questions and mark scheme answers. Slides were originally created using google slides, opening in microsoft powerpoint might cause slight misalignment - open in google slides to avoid this.
Thermal Efficiency
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Thermal Efficiency

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Originally created for the BTEC Applied Science level 3 qualification Unit 5 - Physics. By the end of the lesson learners should be able to: Recall the equations for efficiency. Describe how to calculate efficiency by using heat in and heat out. Explain how the Carnot Revolution equation is derived. The resource contains past paper questions and mark scheme answers. Slides were originally created using google slides, opening in microsoft powerpoint might cause slight misalignment - open in google slides to avoid this.
Cycles and the Carnot Cycle
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Cycles and the Carnot Cycle

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Originally created for the BTEC Applied Science level 3 qualification Unit 5 - Physics. By the end of the lesson learners should be able to: Recall the Carnot cycle. Describe how an internal combustion engine works. Explain why latent heat is needed in a steam turbine. The resource contains past paper questions and mark scheme answers. Slides were originally created using google slides, opening in microsoft powerpoint might cause slight misalignment - open in google slides to avoid this.
Processes
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Processes

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Originally created for the BTEC Applied Science level 3 qualification Unit 5 - Physics. By the end of the lesson learners should be able to: Recall the second law of thermodynamics. Describe what is meant by natural processes and entropy. Compare adiabatic and isothermal processes. The resource contains past paper questions and mark scheme answers. Slides were originally created using google slides, opening in microsoft powerpoint might cause slight misalignment - open in google slides to avoid this.
Energy and Conservation
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Energy and Conservation

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Originally created for the BTEC Applied Science level 3 qualification Unit 5 - Physics. By the end of the lesson learners should be able to: Recall a system in which work and heat is used. Describe the first law of thermodynamics Calculate specific heat and specific latent heat The resource contains past paper questions and mark scheme answers. Slides were originally created using google slides, opening in microsoft powerpoint might cause slight misalignment - open in google slides to avoid this.
Gases and Thermometry
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Gases and Thermometry

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Originally created for the BTEC Applied Science level 3 qualification Unit 5 - Physics. By the end of the lesson learners should be able to: Recall the ideal gas equation. Describe how scientists calculated absolute zero. Evaluate different thermometers. The resource contains past paper questions and mark scheme answers. Slides were originally created using google slides, opening in microsoft powerpoint might cause slight misalignment - open in google slides to avoid this.
Thermal Energy
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Thermal Energy

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Originally created for the BTEC Applied Science level 3 qualification Unit 5 - Physics. By the end of the lesson learners should be able to: Recall what is meant by temperature and thermal energy. Describe what is meant by heat flow. Compare sensible and latent heat. The resource contains past paper questions and mark scheme answers. Slides were originally created using google slides, opening in microsoft powerpoint might cause slight misalignment - open in google slides to avoid this.