Mass ratio proton (neutron)/electron: 1 836
The neutron-proton ratio for nitrogen-14 is 7:7, as it has 7 protons and 7 neutrons.
Beta particle
Stability depends on to proton/neutron ratio; and this ratio increase with the atomic number.
The charge-mass ratio of a proton is approximately 9.58 x 10^7 coulombs per kilogram (C/kg). This value is a fundamental property that describes the ratio of the charge of a proton to its mass. It is commonly used in particle physics experiments and calculations.
Mass ratio proton (neutron)/electron: 1 836
Mass ratio proton (neutron)/electron: 1 836
Mass ratio proton (neutron)/electron: 1 836
neutron to proton ratio :)
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.
The neutron-proton ratio for nitrogen-14 is 7:7, as it has 7 protons and 7 neutrons.
Yes, it is. It has a high neutron-to-proton ratio.
No, the charge to mass ratio value would not be the same if the electron is replaced by a proton or neutron. Protons and neutrons have different charge and mass compared to electrons, so the ratio would vary. The charge to mass ratio is specific to each type of particle.
Beta particle
Stability depends on to proton/neutron ratio; and this ratio increase with the atomic number.
The charge-mass ratio of a proton is approximately 9.58 x 10^7 coulombs per kilogram (C/kg). This value is a fundamental property that describes the ratio of the charge of a proton to its mass. It is commonly used in particle physics experiments and calculations.
It is 2:1It is 2:1It is 2:1It is 2:1