Colloid
what is the solution
An atom's electrons are distributed through most of its volume.
metal atoms being so close to one another that their outermost level overlap. Cause of the overlapping metallic bonds extend throughout the metal in all direction, so valence electrons can move throughout the metal.
Sound travels further in a solid medium because the atoms are closer together. less energy is dissipated. It's an amplification of sorts.
Atoms exist throughout the universe. the most common atom in the universe is hydrogen. Helium is the second most common found in the universe, and oxygen is the third.
what is the solution
solution
No. Sound requires a physical medium. Sound occurs when atoms strike against other atoms, thus propagating the energy.No. Sound requires a physical medium. Sound occurs when atoms strike against other atoms, thus propagating the energy.No. Sound requires a physical medium. Sound occurs when atoms strike against other atoms, thus propagating the energy.No. Sound requires a physical medium. Sound occurs when atoms strike against other atoms, thus propagating the energy.
waves,atoms, and joints
Like all atoms they are tiny. Compared with other atoms, iron atoms are of medium size.
Sound is basically the vibration of atoms or molecules of a solid, liquid, or gas that propgate throughout the medium. Sound MUST have a medium to travel through; if there were no medium there to vibrate in, it would have no frequency and therefore would not be able to be heard. Since a vacuum is a space devoid of all matter, there would be no medium for the sound waves to propgate in, so therefore, no sound.
This is because the medium then has atoms closer together making it easier to transmit motion between the atoms.
a. X-ray diffraction patterns show crystals to be neat mosaics, with atoms distributed in a patterned structure. No crystalline solids are said to be amorphous, meaning the atoms are distributed randomly.
Electrons are used commonly between atoms.
1. The configuration of the atoms or molecules in the medium 2. The composition of the atoms or molecules (the configuration of their orbitals, which determines what frequencies of light they can absorb) 3. Magnitude of the vibration of the atoms or molecules in the medium
An atom's electrons are distributed through most of its volume.
An isotope of an element.