Recall the main groupings of the continuous electromagnetic spectrum including (in order) radio waves, microwaves, infrared, visible (including the colours of the visible spectrum), ultraviolet, x-rays and gamma rays
Recall the main groupings of the continuous electromagnetic spectrum including (in order) radio waves, microwaves, infrared, visible (including the colours of the visible spectrum), ultraviolet, x-rays and gamma rays
Describe the electromagnetic spectrum as continuous from radio waves to gamma rays and that the radiations within it can be grouped in order of decreasing wavelength and increasing frequency
Recall that our eyes can only detect a limited range of frequencies of electromagnetic radiation
Recall that different substances may absorb, transmit, refract or reflect electromagnetic waves in ways that vary with wavelength
Explain the effects of differences in the velocities of electromagnetic waves in different substances
Explain that all bodies emit radiation, that the intensity and wavelength distribution of any emission depends on their temperature
Explain that for a body to be at a constant temperature it needs to radiate the same average power that it absorbs
Explain what happens to a body if the average power it radiates is less or more than the average power that it absorbs
Explain how the temperature of the Earth is affected by factors controlling the balance between incoming radiation and radiation emitted
Core Practical: Investigate how the nature of a surface affects the amount of thermal energy radiated or absorbed
Explain, with the aid of ray diagrams, reflection, refraction and total internal reflection (TIR), including the law of reflection and critical angle
Recall that the potential danger associated with an electromagnetic wave increases with increasing frequency
Describe the harmful effects on people of excessive exposure to electromagnetic radiation, including:
a) microwaves: internal heating of body cells b) infrared: skin burns c) ultraviolet: damage to surface cells and eyes, leading to skin cancer and eye conditions d) x-rays and gamma rays: mutation or damage to cells in the body
Describe some uses of electromagnetic radiation
a) radio waves: including broadcasting, communications and satellite transmissions b) microwaves: including cooking, communications and satellite transmissions c) infrared: including cooking, thermal imaging, short range communications, optical fibres, television remote controls and security systems d) visible light: including vision, photography and illumination e) ultraviolet: including security marking, fluorescent lamps, detecting forged bank notes and disinfecting water f) x-rays: including observing the internal structure of objects, airport security scanners and medical x-rays g) gamma rays: including sterilising food and medical equipment, and the detection of cancer and its treatment
Recall that radio waves can be produced by, or can themselves induce, oscillations in electrical circuits
Recall that changes in atoms and nuclei can
a) generate radiations over a wide frequency range b) be caused by absorption of a range of radiations
Explain the difference between specular and diffuse reflection
Explain how colour of light is related to
a) differential absorption at surfaces b) transmission of light through filters
Relate the power of a lens to its focal length and shape
Use ray diagrams to show the similarities and differences in the refraction of light by converging and diverging lenses
Explain the effects of different types of lens in producing real and virtual images
Recall that all electromagnetic waves are transverse, that they travel at the same speed in a vacuum
Explain, with examples, that all electromagnetic waves transfer energy from source to observer
Core Practical: Investigate refraction in rectangular glass blocks in terms of the interaction of electromagnetic waves with matter