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the particles in matter are in motion at all times. :p
Gravity is the force of attraction whcih exists between all matter in the universe. Its strength is inversely proportional to the square of the distance between the two particles of matter.
The Particle Theory has 4 laws: 1) All matter is composed of particles 2) Each of these particles have spaces between them 3) These particles are always in a constant state of motion 4) Because some particles are Negative, & some Positive, they are attracted to each other.
The most obvious one is that the states of matter are a "bulk property" of a large collection of interacting particles of matter, while particles of matter are the individual constituents (e.g. molecules, atoms, subatomic particles) that matter is made of and do not have any "bulk properties".
The big idea of particles is: Proliferation of Dualities - particle and wave; particle and field;discrete and continuous; objective reality and anthropic idea; math. description and interpretation atc.
bonds
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.
As the space changes between the particles, so does the state of matter.
the particles in matter are in motion at all times. :p
1.All matter is made up of particles. 2.All particles have spaces between them. 3.Particles are always in motion. 4.Particles have attraction forces. 5.Temperature effects the speed in which particles move. 6.All particles of one substance are identical
Gravity is the force of attraction whcih exists between all matter in the universe. Its strength is inversely proportional to the square of the distance between the two particles of matter.
That's actually impossible unless you look between the particles of matter. Particles = more than one particle.
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.
According to the kinetic theory, the particles in a gas are considered to be small, hard spheres with an insignificant volume, and all the collisions between particles in a gas are perfectly elastic.