For example film can record a wider spread of colors on a spectrum than we could see. Because light is a wave oscillates electric and magnetic fields it can be identified as an electromagnetic wave. Electromagnetic waves vary depending on frequency and the wavelength. There is a wide range of wavelengths in the electromagnetic spectrum which its frequency ranges from 1020 Hz to 106Hz. Transverse waves is an Electromagnetic wave theory of oscillating electric and magnetic field. These fields are put on a scale moving perpendicular to the direction to which the wave moves. They are distinguished by their difference in frequencies and wavelengths. For example visible light have different wavelengths and frequencies resulting in different colors. Also visible and invisible light are distinguished depending on their wavelengths and frequencies. Electromagnetic waves move at the speed of light which is 3.00 x108m/s. The equation for measuring wave speed is by λν = c(wavelength x frequency=speed of
For example film can record a wider spread of colors on a spectrum than we could see. Because light is a wave oscillates electric and magnetic fields it can be identified as an electromagnetic wave. Electromagnetic waves vary depending on frequency and the wavelength. There is a wide range of wavelengths in the electromagnetic spectrum which its frequency ranges from 1020 Hz to 106Hz. Transverse waves is an Electromagnetic wave theory of oscillating electric and magnetic field. These fields are put on a scale moving perpendicular to the direction to which the wave moves. They are distinguished by their difference in frequencies and wavelengths. For example visible light have different wavelengths and frequencies resulting in different colors. Also visible and invisible light are distinguished depending on their wavelengths and frequencies. Electromagnetic waves move at the speed of light which is 3.00 x108m/s. The equation for measuring wave speed is by λν = c(wavelength x frequency=speed of