n is needed to determine the size. As n gets bigger, so does the atom.
nothing at all, because the s orbital is a spherosophical orbital, while the principal energy level isn't.
n
The 4d orbital would be the same shape as the 3d orbital, but just a larger size. Also it would have more nodes than he 3d orbital.
The quantum number relating to the size and energy of an orbital
If the electron were the size of a golf ball, the proton would be about the size of a basketball and the electron would be orbiting about 8000 meters away (assuming the Bohr model of the atom).
n - the which orbital your e is in
The size of the orbital.
A sample size is needed whenever you conduct an experiment. How you determine an adequate sample size depends on the scope of what you're testing, such as medications.
The 2s orbital is larger than the 1s orbital and is higher in energy.
Orbital information. You need to know the size of the "semi-major axis". Then you can calculate the orbital period, using Kepler's Third Law.
It depends on the size of the unspecified cube size, and what and how they are to be used? More information is needed.
No. It is the only way to measure an atom because the orbital is the outer part of the atom and determines its size.
How accurately do you think the future size of a population can be predictes what information might be needed to make a prediction
How accurately do you think the future size of a population can be predictes what information might be needed to make a prediction
It depends on the size of the unspecified cube size, and what and how they are to be used? More information is needed.
The size of a planet is not related to it's distance from the sun. Planet mass and orbital velocity are factors that determine it's distance from the sun.
Not enough information. You can't determine the density of something just by measuring its size.