There are different isotopes of hydrogen. Assuming you mean the difference in Atomic Mass between a proton and an electron though, the atomic mass of a proton is about 1836 times greater (approx 1.007 amu), and the neutron is a little more than that (approx 1.009 amu).
1800 times the mass of an electron is approximately equal to the mass of a proton.
charge mass, Whether or not two can exist at the same place.
The difference in mass between a sodium atom and a sodium ion (supposing Na+) is 9.10938188 × 10-31kg (the mass of an electron). This is due to the sodium atom losing an electron to form an ion. In order to attain the mass of a single sodium atom you need to divide the molar massn (mass number) of sodium by avogadro's number. You can then find the mass of the ion by subtracting the mass of an electron from the mass of a sodium atom.
Though a hydrogen atom typically has one proton, its mass is not solely determined by the proton. The mass of a hydrogen atom comes from the combination of the proton and an electron. The electron contributes a much smaller amount to the overall mass compared to the proton.
The isotopes of hydrogen have a greater ratio of mass difference because hydrogen has the smallest atomic mass compared to other elements. Since the mass of hydrogen isotopes differs significantly (H-1, H-2, and H-3), the ratio of their mass difference is also relatively larger. This makes the difference in mass between hydrogen isotopes more pronounced compared to isotopes of other elements, which have higher atomic masses.
1800 times the mass of an electron is approximately equal to the mass of a proton.
charge mass, Whether or not two can exist at the same place.
The particle with the lowest mass number is the electron, which has a mass number of 0. This is because electrons are considered to be fundamental particles and do not consist of smaller subatomic particles like protons and neutrons.
no, it would change its charge not its mass.
70
The rest mass of an electron is its intrinsic mass at rest, which is approximately 9.11 x 10^-31 kg. The effective mass of an electron is a concept in solid-state physics that describes how an electron behaves in a crystalline solid as if it were a free particle with a different mass due to interactions with the crystal lattice. The effective mass can be different from the rest mass and varies depending on the material and the electron's energy level.
no, the mass spectrometer.
Mass is a unit of measurement and water is a substance. Namely a combination of hydrogen and oxygen in a 2 to 1 ratio.
The difference in mass between a sodium atom and a sodium ion (supposing Na+) is 9.10938188 × 10-31kg (the mass of an electron). This is due to the sodium atom losing an electron to form an ion. In order to attain the mass of a single sodium atom you need to divide the molar massn (mass number) of sodium by avogadro's number. You can then find the mass of the ion by subtracting the mass of an electron from the mass of a sodium atom.
Though a hydrogen atom typically has one proton, its mass is not solely determined by the proton. The mass of a hydrogen atom comes from the combination of the proton and an electron. The electron contributes a much smaller amount to the overall mass compared to the proton.
The isotopes of hydrogen have a greater ratio of mass difference because hydrogen has the smallest atomic mass compared to other elements. Since the mass of hydrogen isotopes differs significantly (H-1, H-2, and H-3), the ratio of their mass difference is also relatively larger. This makes the difference in mass between hydrogen isotopes more pronounced compared to isotopes of other elements, which have higher atomic masses.
isobars are elements with same mass numbers (Atomic Mass) and different atomic number (number of proton or electron)