according to energy heat equation
e=mc^2
where c is speed
we can calculate energy
The equation is q = mC∆T where q is the heat; m is the mass of water; C is the specific heat of water (1 cal/g/deg); and ∆T is the change in temperature.
The mass of electrons is ignored in calculating an approximate atomic mass, because an electron's mass is only about 1/1836.1 of the mass of a proton or neutron.
Mass = force ( weight) / acceleration due to gravity
divide its mass by its voulme
kilogram because its the mass you calculating.
density = mass/volume
Divide your Earth-weight in pounds by 2.205 to find your mass in kilograms.
velocity=acceleration multiplied by time
The object's density = (its mass) divided by (its volume)
The equation is q = mC∆T where q is the heat; m is the mass of water; C is the specific heat of water (1 cal/g/deg); and ∆T is the change in temperature.
By calculating the discriminant of the equation and if it's negative the equation will have no solutions
There is no direct relationship between how much mass an object has and it's volume. That is, mass plays no part in calculating the volume, and volume plays not part in determining mass. However, they are related by the equation to calculate the density. Density=Mass/Volume.
The mass of electrons is ignored in calculating an approximate atomic mass, because an electron's mass is only about 1/1836.1 of the mass of a proton or neutron.
M x M / final temp. of first M x final temp. of second M.
same equation, ke = your known mass x your known speed squared. get the units right and your good to go.
He is known for describing mass-energy equivalence given by E=mc2 in its simplest form.
There are a great many equations for calculating current; it depends on the context in which you need to calculate current.