Atoms have always and will always move unless, in the future, we find a way to get a substance to a temperature of absolute zero, 0 degrees Kelvin. Because the moving of the atoms creates heat.
In a solid the atoms are tightly packed together and vibrate in place, in a liquid the atoms are loosely packed together and can move past each other, and in a gas the atoms are far apart and move freely and collide frequently.
False. Atoms do not move freely in all states of matter. In solids, atoms are closely packed and vibrate in place, while in liquids, they can move past one another but are still somewhat restricted. In gases, atoms move more freely and independently, occupying the available space.
yes
they are attracted to each other opposites attract in tight spaces
Yes, the constituents atoms in a metal can move. In metals, the atoms are arranged in a crystal lattice structure that allows them to move and slide past each other, giving metals their characteristic ability to be malleable and ductile.
Yes atoms do move
In a solid atoms do not move at all, but they can vibrate.
the atoms in a liquid are loosely packed together. they can move, but they have to move together.
Atoms are not deemed to be alive
In a solid the atoms are tightly packed together and vibrate in place, in a liquid the atoms are loosely packed together and can move past each other, and in a gas the atoms are far apart and move freely and collide frequently.
False. Atoms do not move freely in all states of matter. In solids, atoms are closely packed and vibrate in place, while in liquids, they can move past one another but are still somewhat restricted. In gases, atoms move more freely and independently, occupying the available space.
by sukin my dik
yes
what
they are attracted to each other opposites attract in tight spaces
Yes
If two covalently bonded atoms move farther than the bond length, the potential energy of the atoms will increase. The potential energy is at its minimum when the atoms are at the bond length, and it increases as the atoms move further apart due to the repulsive forces between the electron clouds of the atoms.