The ratio of neutrons to protons in stable atomic nuclei ranges from about 1 to 1 at the lower end of the scale of atomic numbers to about 1.6 to 1 at the upper end. This band of stabilitymight also be called the stability belt, stability band, or stability zone, depending on the text being consulted. In general, any ratio that falls outside the band will represent an unstable nucleus, and that atom will be a radionuclide, and be radioactive, and will decay in time. Links can be found below.
Mass ratio proton (neutron)/electron: 1 836
The ratio of a proton's rest mass to an electron's rest mass is 1836.15267247:1. For more information, follow the link below.
The proton will have greater acceleration. This is because the proton has a higher charge to mass ratio than the alpha particle. The proton has a +1 charge, as you know, and the alpha particle has a +2 charge because it has 2 protons in it. But the alpha particle also has a pair of neutrons fuesed to those 2 protons, so it has a 2 to 4 charge to mass ratio. The proton, with its 1 to 1 ratio of charge to mass, will have a greater acceleration in the same electric field.
The charge-to-mass ratio of an electron is approximately 1.76 x 10^11 coulombs per kilogram. This value is a fundamental characteristic of electrons and is used in various physics applications, such as in particle accelerators.
Beta decay occurs spontaneously in isotopes where the neutron-to-proton ratio is higher than what is stable, leading to the conversion of a neutron to a proton, electron, and antineutrino to achieve a more stable ratio. The decay is influenced by the weak nuclear force, which governs interactions at the subatomic level and can cause the transformation to happen spontaneously.
calculate the ratio between proton&electron
The ratio between radius of proton to the radius of electron is just 0.3
Mass ratio proton (neutron)/electron: 1 836
Mass ratio proton (neutron)/electron: 1 836
Mass ratio proton (neutron)/electron: 1 836
Because proton and nelutron present in nucleus with charges positive and negative while neutron have no charge and proton and electron have same in numbers and the ratio have between electron and is zero. For.eg magnesium have 12 atomic number and proton and are also 12 in magnesium there ratio is 1:1
Dunno, but the ratio of the mass of a proton to the mass of what prople think of as being an electron is approx 1980. I'd check that if I were you though. Probably OK to +- 5%.
By sheer size, I would assume MUCH larger. But through weight, the proton is much heavier compared to an electron. On any element, the atomic number is the weight of the nuetrons and protons. The weight of electrons is so small and insignificant, it is usual not looked on at the highschool level. And has no effect on the molar mass.
Compared to the (charge/mass) ratio of the electron:-- The (charge/mass) ratio of the proton is much smaller; although the proton charge is equal to the electron charge, the proton mass is much larger, by a factor of more than 1,800.-- The (charge/mass) ratio of the neutron is zero, because the neutron charge is zero.
The mass of a proton and neutron are pretty close. So the ratio will be roughly 1 to 1 (or 1:1). The neutron is heavier and if memory serves it is exactly the mass of an electron heavier than a proton. Note it takes around 1820 electron to equal the mass of one proton.
Mass ratio proton (neutron)/electron: 1 836
The charges on proton and electron are equal in magnitude. hence, the electric force F(=eE) on them will be equal in magnitude.Acceleration of electron,ae=F/me=eE/meAcceleration of proton,ap=F/mp=eE/1836meTherefore,ae/ap=1836