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- Light, or electromagnetic radiation, also can be described as a wave. The energy of light travels through a medium called an electromagnetic field. This field exists everywhere in the universe. It oscillates when energy disturbs it, just like the rope moves up and down as someone shakes it.
www.snexplores.org/article/explainer-understanding-waves-and-wavelengths
Light is called an 'electromagnetic wave' for historical reasons* in the following sense: It turned out that the effects of visible light and other radiation can be calculated using Maxwell's equations, which are also used to model the behaviour of electrically charged particles. This was an instant of a successful unification and it hasn't ...
- Why do we think of light as a wave? - Physics Stack Exchange
It has a wavelength because there is physical space between...
- Why do we think of light as a wave? - Physics Stack Exchange
- What Is Light
- Light Under Ocean Waves
- Eyes in The Twilight Zone
- What Colors Are Found in The Deep?
- What Color of Animals Do We Find there?
Light is energy traveling at the fastest speed in the universe through what are called light waves. Unlike ocean waves, light waves are electromagnetic energy. Like all electromagnetic energy, they have different wavelengths. Parts of a wave: 1. Crest – the highest point of a wave 2. Trough – the lowest point of a wave 3. Wavelength – the distance ...
Sunlight contains all of the colors of our visible spectrum— red, orange, yellow, green, blue, and violet (ROYGBV). When all of these colors are combined together, they appear white as white light. Each visible color has its own wavelength, or distance between two waves. Red light has the longest wavelength in the visible spectrum and violet has th...
Very little light from the surface penetrates between 200 and 1,000 meters, in what’s known as the dysphotic or twilight zone. Once we reach about 1,000 meters depth, light from above has disappeared entirely. This sunless realm is known as the aphotic zone. Light conditions affect how much both humans and organisms see. Some deep- sea organisms’ e...
The wavelength of light that reflects off an object is the color we see. For example, an object we see as red in white light appears that way because it reflects longer, less energetic red light waves. It absorbs the other colors (all of which are present in white light). Red and orange light waves have less energy, so they are absorbed near the oc...
Red and black animals are common in the deep ocean. At this depth, few, if any, red light waves reflect back to one’s eye. Since there is no red light available, red animals here will appear gray or black, making them nearly invisible to other organisms. This helps them evade predators when there is nowhere to hide. Why are so many deep-sea animals...
How does it affect the colors we see? What is Light? Light is energy traveling at the fastest speed in the universe through what are called light waves. Unlike ocean waves, light waves are electromagnetic energy. Like all electromagnetic energy, they have different wavelengths. Parts of a wave: • Crest - the highest point of a wave.
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Solar radiation provides light for photosynthesis, which supports the entire ocean ecosystem. The energy reaching Earth from the sun is a form of electromagnetic radiation, which is represented by the electromagnetic spectrum (Figure 6.5.1). Electromagnetic waves vary in their frequency and wavelength.
Sound and ocean waves are moving particles. Radio waves are not particles, they are light - just light you can't see. They, with light, are part of the electromagnetic wave type of wave - this is the "special" one.
It has a wavelength because there is physical space between the peaks of the waves - it is a real, physical, wave. Just like water waves and sound waves, you can do "wave things" to light waves, such as send them through diffraction gratings and see the interference. and what creates its wavelength.
The energy reaching Earth from the sun is a form of electromagnetic radiation, which is represented by the electromagnetic spectrum (Figure 5.9.1). Electromagnetic waves vary in their frequency and wavelength. High frequency waves have very short wavelengths, and are very high energy forms of radiation, such as gamma rays and x-rays.
