Yes, according to Einstein's famous equation Emc2, energy can be converted into matter and vice versa. This process has been observed in particle accelerators and nuclear reactions.
Yes, it is possible to convert energy into matter through processes such as particle collisions or high-energy reactions, as described by Einstein's famous equation Emc2.
Yes, nuclear reactions convert a small amount of matter into a large amount of energy, as described by Einstein's famous equation E=mc^2. This means that a small portion of the mass of the nucleus is converted into energy during nuclear reactions.
Matter and energy can convert into each other according to Einstein's famous equation, E = mc^2. This means that matter can be converted into energy and vice versa. For example, in nuclear reactions, some of the mass of the nucleons is converted into energy.
Photosynthesis is not involved in the movement of matter and energy between reservoirs. Photosynthesis is a process by which plants convert sunlight, water, and carbon dioxide into oxygen and glucose, but it is not directly involved in the movement of matter and energy between different reservoirs in an ecosystem.
A tree is classified as matter because it is made up of various elements such as carbon, oxygen, and water. While it does store and convert energy through photosynthesis, it is ultimately composed of physical substances.
Yes, it is possible to convert energy into matter through processes such as particle collisions or high-energy reactions, as described by Einstein's famous equation Emc2.
Yes, nuclear reactions convert a small amount of matter into a large amount of energy, as described by Einstein's famous equation E=mc^2. This means that a small portion of the mass of the nucleus is converted into energy during nuclear reactions.
No, heterotrophs cannot convert solar energy into chemical energy. Heterotrophs obtain their energy by consuming other organisms or organic matter that have already converted solar energy into chemical energy through processes like photosynthesis.
Energy is stored in all matter- potential in nature. On conversion matter will change it's state or convert to another form of matter. In the process energy is absorbed by it or released from it. Fire wood, when it burns, absorbs oxygen from atmosphere and carbon combines with oxygen releasing heat energy in the process.
This formula shows that matter is just a form of energy; one can convert mass into energy and vice versa.
His work on stellar nucleosynthesis. That explains how starts convert matter into energy.
False from what i understand heterotrophs are animals and animals get their energy from other animals/ plants. Autotrophs are the ones that convert solar energy in to chemical energy through photosynthesis
No. You can convert one type of energy to another (with certain limitations - for more information, read about the "Second Law of Thermodynamics"); but you can't create energy out of nothing - or destroy energy for that matter.
Matter and energy can convert into each other according to Einstein's famous equation, E = mc^2. This means that matter can be converted into energy and vice versa. For example, in nuclear reactions, some of the mass of the nucleons is converted into energy.
Photosynthesis is not involved in the movement of matter and energy between reservoirs. Photosynthesis is a process by which plants convert sunlight, water, and carbon dioxide into oxygen and glucose, but it is not directly involved in the movement of matter and energy between different reservoirs in an ecosystem.
They don't. Distance is the same no matter what. What changes is the ability to convert energy to horizontal acceleration.
You can convert one type of energy into another type of energy.