Matter is anything that takes up space or has volume
Energy is the ability to do work
An anti-matter proton (or simply an "anti-proton") differs in charge, and thus spin as well.
Active transport requires energy; passive transport does not.
The relationship between energy and matter is that they are interconnected and can be converted into each other. Matter contains energy in the form of particles, and energy can be released or absorbed during chemical reactions or nuclear processes involving matter. This relationship is described by Einstein's famous equation, Emc2, which shows that energy (E) and matter (m) are interchangeable.
Matter is anything that takes up space or has volume Energy is the ability to do work
The study of the relationship between matter and energy is called physics. This field explores how matter and energy interact and influence each other in various phenomena and systems in the universe.
light can be energy and light can be consider as matter too.
Einstein's famous equation, E=mc^2, demonstrates the equivalence between matter and energy. This equation states that energy (E) and mass (m) are interchangeable, highlighting that matter and energy are two sides of the same coin. This concept is fundamental to understanding the relationship between matter and energy in the universe.
Matter and energy are constantly exchanged between the spheres through different processes. These processes are in the form of chemical reactions, radioactive decay, the radiation of energy, & the growth and decay of organisms.
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.
No, energy does not have atoms. Energy is a property of matter or a system, and it can be transferred between objects or converted into different forms, but it is not made up of atoms like matter is.
Ionisation energy differs between elements due to variations in the number of protons in their nucleus, which affects the strength of the attraction between the electrons and the nucleus. Elements with higher atomic numbers typically have higher ionisation energies due to increased nuclear charge. Additionally, ionisation energy generally increases across a period and decreases down a group on the periodic table.
Energy can cause matter to change states (such as from solid to liquid), move (such as with kinetic energy), or create interactions between particles (such as in chemical reactions). Ultimately, energy can influence the behavior and properties of matter in various ways.