That depends very much on what kind of radiant energy and how much of it you get.
A large dose of radiant gamma radiation is very unhealthy.
A moderate amount of sunshine (which is radiant energy) is good for you and promotes the production of vitamin D.
Too much UV radiation will give you sunburn and can cause skin cancer.
Yes, radiant energy has downsides. It has radi which is bad for the skin.
Radiant energy is very cheap and creates the same amount of electricity as other resources. Yet radiant energy can harm skin and cause skin cancer.
Chemical to radiant energy
The heating of a solid body, which absorbs radiant energy, was studied. With sufficient radiantenergy flow, the surface of the body can achieve such a high temperature that the physiochemical conversions of the material are unavoidable. Emphasis was placed upon the one-dimensional problem of the evaporation of the solid body, heated from the incident radiant energy. It is assumed that the flow of radiant energy is absorbed on the surface of the body and is equivalent to the thermal flow q on the boundary whose value depends on time t and on the surface temperature. There are two cases of surface evaporation examined: body evaporation and evaporation into the medium filled far from the body.
Light is light. Radiant is Radiant.
The question is based on a lack of understanding of what radiant energy is! It is not bad: there would be no life on earth if it were not for sunlight - which, in case you had not noticed, is a form of radiant energy.
Yes, radiant energy has downsides. It has radi which is bad for the skin.
Radiant energy is very cheap and creates the same amount of electricity as other resources. Yet radiant energy can harm skin and cause skin cancer.
Chemical to radiant energy
the process by which heat is transfer from one body to another {in air} while using no medium is known as radiation or radiant energy.
The heating of a solid body, which absorbs radiant energy, was studied. With sufficient radiantenergy flow, the surface of the body can achieve such a high temperature that the physiochemical conversions of the material are unavoidable. Emphasis was placed upon the one-dimensional problem of the evaporation of the solid body, heated from the incident radiant energy. It is assumed that the flow of radiant energy is absorbed on the surface of the body and is equivalent to the thermal flow q on the boundary whose value depends on time t and on the surface temperature. There are two cases of surface evaporation examined: body evaporation and evaporation into the medium filled far from the body.
Radiant energy is a term that is almost exclusively used for electromagnetic energy. When something is hot, it emits radiant energy. The sun is an obvious example, but all object actually emit radiant energy. The hotter the object, the more energy. Sound does carry energy, but it is not electromagnetic. Objects can emit sound and even "radiate" sound, but the term radiant energy is not normally used for sound.
Light is light. Radiant is Radiant.
Not being a plant, you lack the ability to use radiant energy directly.
Radiant energy is sustainable because we can handle it ex.we can handle the light from radiant energy.
A net absorber of radiant energy.
radiant energy