2.18x10-18 J
This is confusing for students and this book needs to show the derivation. Rydberg's Constant is 1.0974 x 10 7 m-1 which is a distance. Some books say that Rydberg's constant is equal to 2.18 x 10 -18 Joules but this is not correct. They are using (R)times(h)times(c).
200 joules of any other type of energy can be converted to 200 joules of heat.
if you know the Rydberg constant this is fairly simple question. the Rydberg constant is 1.097x107m-1 The equation for is 1 / lambda = 1.097x107m-1 ((1/62) - (1/32)) Then the rest is peanuts.
2 767 680 000 000 - for an 80 kg person
See the links below. Remember to distinguish where necessary between the universal gas constant R (joules per mole Kelvin) and the particular gas constant R (joules per kilogram Kelvin)
It is equal to 4.5 joules per second. "Watt" means how quickly energy is generated, consumed, or converted.
Rydberg Constant: 10,973,731.6 per meter
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
R may be the Rydberg constant or the gas constant.
The units for Rydberg's constant are [L-1].
The units are m-1 or per metre.
joules constant
Mass is converted to energy according to the famous equation: E= mc^2 where E is energy measured in joules, m is mass in kilograms and c is the speed of light in meters per second which happens to be the constant 299,792,458.
Rydberg constant is 10,973,731.6 m-1. It's found by this sophisticated form, which is: R∞ = mee4/(8ε0²h³c) where: me = rest mass of the electron e = elementary charge ε0 = permittivity of free space h = Planck constant c = speed of light in a vacuum.
Joules
200 joules of any other type of energy can be converted to 200 joules of heat.
if you know the Rydberg constant this is fairly simple question. the Rydberg constant is 1.097x107m-1 The equation for is 1 / lambda = 1.097x107m-1 ((1/62) - (1/32)) Then the rest is peanuts.
If all 1700 Joules of work get converted into heat, then, of course, you get 1700 Joules of heat.