It is the chloroplast.It contains pigment to absorb sun light.
Chloroplasts are the organelles responsible for converting solar energy into glucose and oxygen through the process of photosynthesis in plants and algae.
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The Earth's surface absorbs the largest portion of incoming solar radiation. This absorption heats the surface, causing it to emit infrared radiation back into the atmosphere.
An example of a chloroplast is found in the leaves of plants. Chloroplasts are responsible for photosynthesis, the process by which plants convert sunlight into energy to fuel growth and development.
During an ice age, the Earth's surface is covered by a larger area of ice and snow. This increased ice and snow cover increases the Earth's albedo, or reflectivity, causing more solar energy to be reflected back into space rather than being absorbed by the surface. As a result, the absorption of solar energy by the Earth's surface decreases during an ice age.
Chloroplasts are the organelles responsible for converting solar energy into glucose and oxygen through the process of photosynthesis in plants and algae.
Stratosphere and Thermosphere
The troposphere and stratosphere are responsible for the majority of solar radiation absorption in the atmosphere. The troposphere absorbs most of the incoming solar energy through the greenhouse effect, while the stratosphere absorbs ultraviolet radiation from the sun through the ozone layer.
Plants have an organelle in their cells called chloroplasts that allows them to utilize the sun's rays and make food for energy. Animals, on the other hand, do not have this organelle and therefore cannot make their own energy from the sun's rays.
No plant organelle produces solar energy. Only the sun produces solar energy.
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Chloroplasts
The answer is: Aknelia. Aknelia is an organelle that sits and helps transfer many different materials to the parts of the solar power plant.
Solar radiation peaks in energy in the mid-yellow range. Chlorphyll's absorption also peaks in this range. It is a demonstration of the adaption of plants to optimizing their production efficiency.
solar energy
The Earth's surface absorbs the largest portion of incoming solar radiation. This absorption heats the surface, causing it to emit infrared radiation back into the atmosphere.
Oxygen is responsible for the absorption of solar radiation with a wavelength less than 242nm. UV radiation splits oxygen into atoms and the atoms combine with other oxygen molecules to form ozone. Generally, all multi-atom?æ compounds are capable of absorbing UV radiation when the wavelength is short.