Yes your correct, when matter is heated the particulars move away from each other and they get faster and faster. When, Matter is cooled it gets smaller & smaller and they move away from each other. [: Hope i helped.
When matter undergoes a physical change (like changes in the state of matter), the space between the particles in the matter and how the particles move change.
Mass and energy always have locations in both time and space; the amount of space that they take up depends upon their density, but they do take up some. Since energy is often associated with matter (heat, kinetic energy etc.) it would be the matter that takes up the space. The energy would be in the same space as the matter. But energy can also exist independently of matter (such as a photon of light travelling in space) and in that case, the energy takes up space.
What's the huge space which contains all of the matter and energy in existence
A wave is a rhythmic movement that carries energy through matter or space.
The matter is anything that takes up space. Energy is basicly the same as matter.
Temperature
Particles have mass because they are matter, and matter is anything that has mass and takes up space. The wave packet that defines the particle is of such high frequency that its energy has a gravitational vector.
No. They are particles. However, when an electron is moving through space it HAS energy. Since an electron has mass it can not be considered to be pure energy. ------------------------------------ Yes they are energy. Energy is the ulimatum and only form energy matter comes out and matter is defined as the one which occupies space. Mass is the quantity of matter contained in a body. Hence though electron is massive particle it has come out of energy.
As the space changes between the particles, so does the state of matter.
1.particles of matter move continously2.particles of matter attract each other3.particles of matter have space between themThe above answers are questionable. #2 is just not true at all as a universal rule (2 protons for example will repel each other). So let me present these:All matter has mass (particle or otherwise)All matter has weight (as a result of having mass)All matter occupies space (even particles)All matter has densityAll matter has inertiaAll matter is impenetrable (this means two particles cannot occupy the same space)All matter is a form of energy. As proven by famous e=mc2Given 7, all matter is conserved (cannot be destroyed)There are more... but those are the big ones.
Space that has no matter is called a vacuum. It is characterized by the absence of particles, such as gas molecules and atoms, and is devoid of any substance. Vacuums exist in outer space and are created artificially in vacuum chambers on Earth.
matter are composed by particles,particles are very small,particle have space between them
matter are composed by particles,particles are very small,particle have space between them
1.particles of matter move continously2.particles of matter attract each other3.particles of matter have space between themThe above answers are questionable. #2 is just not true at all as a universal rule (2 protons for example will repel each other). So let me present these:All matter has mass (particle or otherwise)All matter has weight (as a result of having mass)All matter occupies space (even particles)All matter has densityAll matter has inertiaAll matter is impenetrable (this means two particles cannot occupy the same space)All matter is a form of energy. As proven by famous e=mc2Given 7, all matter is conserved (cannot be destroyed)There are more... but those are the big ones.
1.particles of matter move continously2.particles of matter attract each other3.particles of matter have space between themThe above answers are questionable. #2 is just not true at all as a universal rule (2 protons for example will repel each other). So let me present these:All matter has mass (particle or otherwise)All matter has weight (as a result of having mass)All matter occupies space (even particles)All matter has densityAll matter has inertiaAll matter is impenetrable (this means two particles cannot occupy the same space)All matter is a form of energy. As proven by famous e=mc2Given 7, all matter is conserved (cannot be destroyed)There are more... but those are the big ones.
There is no antimatter identified yet. Location in space and time are used as coordinates of an event. Matter is a form of energy. Sub-elementary particles (from which we know some of them) organize as elementary particles (electron, neutrino and protons). Further, elementary particles organize as atoms which gather in molecules or matter. Antimatter could be, if it exists, from a special kind of sub-elementary particles which we do not about yet.
1.particles of matter move continously2.particles of matter attract each other3.particles of matter have space between themThe above answers are questionable. #2 is just not true at all as a universal rule (2 protons for example will repel each other). So let me present these:All matter has mass (particle or otherwise)All matter has weight (as a result of having mass)All matter occupies space (even particles)All matter has densityAll matter has inertiaAll matter is impenetrable (this means two particles cannot occupy the same space)All matter is a form of energy. As proven by famous e=mc2Given 7, all matter is conserved (cannot be destroyed)There are more... but those are the big ones.