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.
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.
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.
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.
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.
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.
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.
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.
By the end of the lesson learners should be able to:
Identify circuit symbols.
Describe how to measure and calculate current.
Explain why ammeters can read a value as minus.
By the end of the lesson learners should be able to:
Identify the circuit symbols for: a thermistor and a LDR.
Describe how resistance changes in a thermistor and LDR.
Explain why both LDRs and thermistors are used.
By the end of the lesson learners should be able to:
Identify a series and parallel circuits.
Describe the properties of series and parallel circuits.
Explain why parallel circuits are used in homes.
By the end of the lesson learners should be able to:
Identify how energy is used in a circuit.
Describe what the energy can be used for in a circuit.
Explain why people are using low energy bulbs.
By the end of the lesson learners should be able to:
State what’s meant by power.
Describe how power can be calculated.
Explain why changing the time that energy is transferred in affects power.
By the end of the lesson learners should be able to:
State what’s meant by direct current and alternating current.
Describe the contents of a 3 pin plug.
Explain why an Earth wire is used in a plug.
By the end of the lesson learners should be able to:
State how electrical energy is distributed by the national grid.
Describe how the national grid efficiently transfers electrical energy.
Explain the use of transformers.
By the end of the lesson learners should be able to:
Identify 2 devices used to deal with electrical overload.
Describe how fuses and earthing deal with electrical overloads.
Explain the movement of electricity and why earthing works.
By the end of the lesson learners should be able to:
Identify permanent and induced magnets.
Describe what’s meant by a permanent and induced magnet.
Explain why magnets are used in industry.
By the end of the lesson learners should be able to:
State what is meant by specific heat capacity.
Describe how specific heat capacity affects how a substance increases in temperature.
Explain the uses of a substance with a large specific heat capacity.
By the end of the lesson learners should be able to:
State what holds particles together in substances.
Describe what happens when bonds are made / broken.
Explain why water, which has a large specific latent heat, remains in each state for a long time.
By the end of the lesson learners should be able to:
State some examples of elastic and inelastic objects.
Describe the effect of two pulling forces on an elastic object.
Explain the incident that can cause an elastic object to become inelastic.