Light waves are just basically a form of the electromagnetic fundamental force. Light waves are created when electricity and magnetism turn into one another. This is true for radio waves as well. The higher the intensity of light waves, the faster the electricity and magnetism are transforming into each other. For examples, when you tune into 99.9 Virgin Radio, the electric and magnetic waves are turning into each other 99.9 million times a second. This is know as the SI unit of hertz.
The formula for light is N=C/V where "N" is the density of the medium, "C" is the speed of light in a vacuum(3.0x10*8)m/s, and "V" is the speed of light in that given medium.
The intensity of light waves is a measure of the energy carried by the waves. It is proportional to the square of the amplitude of the waves. The intensity of light waves determines how bright the light appears to us.
To calculate the frequency of green light waves with a wavelength of 520 mm, you can use the formula: frequency = speed of light / wavelength. The speed of light is approximately 3.00 x 10^8 m/s. First, convert the wavelength from mm to meters by dividing by 1000. Then, plug the values into the formula to find the frequency in Hz.
Strong light waves refer to light waves that have a high intensity or brightness. These waves have a higher amplitude and carry more energy compared to weaker light waves. Strong light waves can be produced by sources such as the sun, lasers, or powerful light bulbs.
Two different types of light waves are visible light waves and ultraviolet light waves. Visible light waves are the only part of the electromagnetic spectrum that our eyes can detect, while ultraviolet light waves have shorter wavelengths and higher frequencies than visible light.
Light waves are not caused by vibrating objects. Light waves are electromagnetic waves that do not require a medium to propagate, unlike sound waves which are caused by vibrating objects. The vibrations of charged particles, such as electrons, generate light waves.
The intensity of light waves is a measure of the energy carried by the waves. It is proportional to the square of the amplitude of the waves. The intensity of light waves determines how bright the light appears to us.
Ultraviolet waves are smaller than light waves.
To calculate the frequency of green light waves with a wavelength of 520 mm, you can use the formula: frequency = speed of light / wavelength. The speed of light is approximately 3.00 x 10^8 m/s. First, convert the wavelength from mm to meters by dividing by 1000. Then, plug the values into the formula to find the frequency in Hz.
No because light waves are stronger and brighter and sound waves are light and dull
Light waves do not emit radiation, light waves are radiation.
Optical light waves are "Electromagnetic" waves. The colour seen is dependent on the wavelength of the light. Electromagnetic waves are transverse waves where the oscillation is 90 degrees to the direction of travel (unlike sound waves which are longitudinal).
Radio and light waves are electromagnetic waves, sound waves are not.
To calculate the number of yellow light waves that will fit into a distance of 0.003 inches, you need to know the wavelength of yellow light. Yellow light typically has a wavelength of around 570-590 nanometers. With this information, you can use the formula: number of waves = distance/wavelength to find the answer.
The type of waves that are electromagnetic are the visible light waves
Strong light waves refer to light waves that have a high intensity or brightness. These waves have a higher amplitude and carry more energy compared to weaker light waves. Strong light waves can be produced by sources such as the sun, lasers, or powerful light bulbs.
Yes, both light and sound can be described as waves. Light waves are electromagnetic waves, while sound waves are mechanical waves. They both propagate through a medium, although light can also travel through a vacuum.
Two different types of light waves are visible light waves and ultraviolet light waves. Visible light waves are the only part of the electromagnetic spectrum that our eyes can detect, while ultraviolet light waves have shorter wavelengths and higher frequencies than visible light.