By the end of the lesson learners should be able to:
Recall the equation for resistance
Describe what is meant by resistance
Calculate the resistance of a component of a circuit
By the end of the lesson learners will be able to:
State some sources of infrared radiation
Describe uses of radiation
Explain how energy is transferred through radiation
Resource was intended for BTEC Applied Science Unit 1 Biology.
The resource was designed on google slides and should work fine on powerpoint, it might just need some rearranging.
Blank diagrams are included for students to label.
Past paper questions are included with the relevant mark scheme answers following.
By the end of the lesson learners should be able to:
Recall what is meant by eukaryotic and prokaryotic cells.
Describe the contents of prokaryotic cells.
Compare gram positive and gram negative bacteria.
Resource was intended for BTEC Applied Science Unit 1 Biology.
The resource was designed on google slides and should work fine on powerpoint, it might just need some rearranging.
Past paper questions are included with the relevant mark scheme answers following.
By the end of the lesson learners should be able to:
Identify the ions present surrounding nerve axons.
Describe how a resting potential is achieved in the nerve cell membrane.
Explain why Potassium ion channels are needed in nerve cell membranes.
An animated powerpoint which shows different ways of looking at balancing equations.
Slides were originally produced on google slides, therefore, to avoid formatting issues, please open the content on google slides.
By the end of the lesson learners should be able to:
Identify different types of waves.
Describe how to measure properties of waves.
Compare constructive and destructive interference.
Resource was intended for BTEC Applied Science Unit 1 Biology.
The resource was designed on google slides and should work fine on powerpoint, it might just need some rearranging.
Blank diagrams are included for students to label.
Past paper questions are included with the relevant mark scheme answers following.
By the end of the lesson learners should be able to:
Identify the organelles within the ultrastructure of plant and animal cells.
Describe the function of these organelles.
Compare and contrast both cells.
Resource was intended for BTEC Applied Science Unit 1 Biology.
The resource was designed on google slides and should work fine on powerpoint, it might just need some rearranging.
Past paper questions are included with the relevant mark scheme answers following.
By the end of the lesson learners should be able to:
Identify the components of a nerve cell: Dendrite, Axon and axon terminal.
Describe the function of a synapse.
Explain why it is important that neurotransmitters are digested after they generate an impulse.
Resource was intended for BTEC Applied Science Unit 1 Physics.
The resource was designed on google slides and should work fine on powerpoint, it might just need some rearranging.
Past paper questions are included with answers from the mark scheme.
By the end of the lesson learners will be able to:
Identify the critical angle.
Describe the uses of optical fibres.
Explain why endoscopes are able to obtain an image of an object even if the optical fibre inside is curved.
Resource was intended for BTEC Applied Science Unit 1 Physics.
The resource was designed on google slides and should work fine on powerpoint, it might just need some rearranging.
Past paper questions are included with answers from the mark scheme.
By the end of the lesson learners will be able to:
Identify waves of the EM spectrum.
Describe the uses of EM waves.
Compare the use of microwaves and radio waves in communication.
Aimed toward BTEC Applied Science Unit 3 - Investigating Fuels, risks of fuels and Units of energy.
By the end of the lesson learners should be able to:
Identify independent and dependent variables.
Describe how to write a method concerning the burning of fuels.
Explain why repeatability and reliability are important factors within experiments.
Targeting the Pearsons BTEC nationals Applied Science Unit 2 - Assignment A.
By the end of the lesson learners will be able to:
Calibrate equipment,
Produce COSHH standard risk assessments,
and produce a standard / stock solution.
Resource was intended for BTEC Applied Science Unit 1 Physics.
The resource was designed on google slides and should work fine on powerpoint, it might just need some rearranging.
Past paper questions are included with answers from the mark scheme.
By the end of the lesson learners will be able to:
Identify digital and analogue signals.
Describe how digital signals store information.
Compare single mode and multimode fibre.
Resource was intended for BTEC Applied Science Unit 1 Physics.
The resource was designed on google slides and should work fine on powerpoint, it might just need some rearranging.
Answer keys are included for all questions asked.
By the end of the lesson learners will be able to:
Identify what is meant by refraction.
Describe the following during refraction: incident ray, refracted ray, normal, angle of incidence and angle of refraction.
Using Snell’s equation calculate the angle of refraction.
By the end of the lesson learners will be able to:
Identify harmonics on a string.
Describe how the harmonics affect the wavelength.
Explain why a greater wavelength leads to a sound containing more bass.
By the end of the lesson learners will be able to:
Identify standing and progressive waves.
Describe how to produce a standing wave.
Explain why resonance can be dangerous.
Targeting Pearsons BTEC Applied science Unit 2 Assignment A.
By the end of the lesson learners will be able to:
Recall the definition of an acid and alkali.
Identify the end point of a titration
Describe how a titration is completed.
Explain the products of a titration.
Aimed toward BTEC applied science Nationals level 3 (yrs 16-18) Unit 2 assignment A
Use of Beer-Lambert Law to calculate concentration.
Identify the elements of the Beer-Lambert equation.
Describe how concentration affects absorbance.
Explain the link between the colour of a solution and the concentration.