The relative atomic mass is 131.293
1/1840 the mass if a hydrogen atom.
The relative refractive index tells the speed of light in a vaccum over the speed of light in medium.
Proton: Charge= +1.60 x 10-19 C; Relative Charge=+1; Mass: 1.672 x 10-24 g; Relative mass= 1 amu Electron: Charge= -1.60 x 10-19 C; Relative Charge=-1; Mass: 9.05 x 10-28 g; Relative mass= amu ~(1/1840 amu) Neutron: Charge= neutral ; Relative Charge=0; Mass: 1.674 x 10-24 g; Relative mass= 1 amu
Momentum = mass x speed so speed = momentum/mass or V=P/m
Mass IS relative to the speed you are going.
if we reach the speed of light our mass start converting into energy according to the mass energy relation when a particle accelerated it must radiate energy. and therefore the mass convert into energy as the velocity increase . relative mass (at velocity =v)=mass/1-v(power2)/c(power2) relative mass is present mass of object at tht velocity. then mass at (rest present mass )c (power2) why it is impossible for a particle too have a speed of light
relative Atomic Mass
relative atomic mass
relative formula mass of MgCO3
electron = relative charge = 1- relative mass = 1/1840 proton = relative charge = 1+ relative mass = 1 neutron = relative charge = 0 relative mass = 1
It is a measure which gives the relative mass of an element (or compound) - relative to 12C having a mass of 12.
All elements have an atomic mass relative to 12C having a mass of 12.
Jupiter has the greatest mass relative to Earth.
the relative atomic mass for the element potassium is 39.0983
Speed must be specified relative to something. Relative to the Sun, the speed of Earth is about 30 km/second. Relative to the Milky Way, or relative to the Local Group, you would get different numbers.
The phrase "relative mass" is a disambiguation of relativistic mass, which is defined by this equation:mrel = m0/ SQRT( 1 - v2/c2)m0 is the rest mass, v is the velocity of the particle, and c is the speed of light.(For more information, see Lorentz Factor and the topic of mass in Einsteins paper on Special Relativity. {Note that Einstein's convention was to refer to relativistic mass as plain ol' mand not mrel.})