Martensite's crystal structure ( known as a monoclinic, or B19'structure ) has the unique ability to undergo limited deformation in some ways without breaking atomic bonds.
22.
As temperature increases, the vibration of atoms increases and thus both peierls stress and yield strength decrease as a result of weaker atomic bond strength at high temperatures.
23.
Ionizing radiation is energy that can be transmitted without direct contact ( radiation ) capable of freeing electrons from their atomic bonds ( ionization ) in the targeted food.
24.
The Peierls stress also relates to the temperature sensitivity of the yield strength of a material because it too depends on both short range atomic order and atomic bond strength.
25.
The reason for this is that vibrational modes allow energy to be stored as potential energy in inter-atomic bonds in a molecule, which are not available to atoms in monatomic gases.
26.
Linus Pauling, Class of 1922, became Oregon State's first Nobel Laureate alumnus in 1954 when he received the Nobel Prize in Chemistry for his work elucidating the nature of the atomic bonds.
27.
These patterns of aligned and misaligned atomic magnets create what are known as frustrated interactions-distortions in the geometry of atomic bonds compared to what would be seen in a regular, fully aligned solid.
28.
Ultraviolet radiation can break down the red pigment's atomic bonds, causing the formation of highly reactive groups of atoms known as free radicals, which can disrupt the normal function of the skin cell.
29.
It also yields two other quantum numbers and the shape of the electron's wave function ( " orbital " ) for the various possible quantum-mechanical states, thus explaining the anisotropic character of atomic bonds.
30.
For example, if you view it as a force, does it mean that the " springs " of atomic bonds are somehow in ( very slightly ) more " tension " as a result?
