Well, let's see:
Force of gravity = G M1 M2 / R2
So G = (force) x (distance)2 / (mass)2 = (M L / T2) x (L2) / (M2) = (M L3) / (M2 T2) =
(Length)3 (Mass)-1(Time)-2
m3 kg-1 s-2.
The units for Rydberg's constant are [L-1].
You measure the gravitational force between two objects - this can be done with a Cavendish balance. Then you plug in the numbers (masses, and force) into the universal formula for gravitation.
Cavendish measured the gravitational constant "G".
The gravitational constant was found by Newton, not Einstein.
m3 kg-1 s-2.
Sir. Isaac Newton discovered the formula with the universal gravitational constant.
Weight = Mass x (Local Gravitational Constant)/(Standard Gravitational COnstant)
The units for Rydberg's constant are [L-1].
Hi, The original answer was: Planck's Constant = Energy/Frequency = [ML2T-2]/[T-1] = [ML2T-2] So, Dimensional Formula of Planck's Constant = [ML2T-2] In fact, it should read: Planck's Constant = Energy/Frequency = [ML2T-2]/[T-1] = [ML2T-1] So, Dimensional Formula of Planck's Constant = [ML2T-1] Regards, Lho
Ml2t-1
Rydberg's Constant means en= -Rh/n2 n=123. Numbers Are always Constant.So it Means Energy of Electron is Equal To Rydberg's Constant .It means That Dimensional Formula Of Rydberg's Constant is M1L2 T-2
gravitational potential means apply force on a object of mass m and opposite to the gravitational force and take the object to one point to another point. gravatiotanal potential = L-1
You measure the gravitational force between two objects - this can be done with a Cavendish balance. Then you plug in the numbers (masses, and force) into the universal formula for gravitation.
Cavendish measured the gravitational constant "G".
The gravitational constant was found by Newton, not Einstein.
g, the force of the Earth's gravitational attraction, is not a constant.