The proton's rest mass is precisely calculated as 1.67262171 x 10-27 kg, which is an experimental result derived from advanced techniques rather than a theoretical calculation. This value is expressed in scientific notation for convenience, representing a very small number compactly. The historical context includes the use of cathode ray tubes by Eugene Goldstein in 1886 and the development of the Penning trap in 1959, which contributed to our understanding of particle masses.
PREREQUISITESStudents and professionals in physics, particularly those interested in particle physics, experimental methodologies, and the historical development of mass measurement techniques.
It is a calculation. See that multiplication symbol in-between?DaveC426913 said:1.672,621,71x 10-27 is not a calculation; it is just a (very small) number.
1.672,621,71x 10-27kg is the mass of a proton.
Do you mean how did we determine how much a proton masses? Did you try Googling that to see where it leads you?
Hint: Read up a little on "Penning Trap".
No, it's a NUMBER. Are you not familiar with exponential notation? Without units it is, as Dave said, just a number. When you add the units, it the mass of a proton, which is an experimental result, not something derived from something else.recniabsal said:It is a calculation. See that multiplication symbol in-between?
It is a notation. Specifically, scientific notation - a way of conveniently representing large and small numbers.recniabsal said:It is a calculation. See that multiplication symbol in-between?