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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.
monicales
All states of matter have vibrating particles, but solids' particles vibrate only.
Particles of matter are always in constant motion.
It basically states that all matter is made up of tiny moving particles.
the particles in matter are in motion at all times. :p
motion... if they weren't they would violate Heisenburg's uncertainty principle.
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.
Matter in which all particles are alike is referred to as homogeneous.
yes because all matter has particles
monicales
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.
building blocks of matter
Moving particles
The particles stay rigid in all states.