0
electron = relative charge = 1-
relative mass = 1/1840
proton = relative charge = 1+
relative mass = 1
neutron = relative charge = 0
relative mass = 1
What else can I help you with?
What statement bout subatomic particles is not true?
"All subatomic particles have the same mass" is not a true statement, as different subatomic particles, such as protons, neutrons, and electrons, have different masses and charges.
What is a particle chart?
A particle chart is a visual representation that displays the subatomic particles within an atom. It typically includes protons, neutrons, and electrons, along with their respective charges and relative masses. This chart helps to illustrate the composition of an atom and provides insights into its overall structure.
What is the subatomic particles mass of 1amu?
The neutron and the proton have masses close to 1 amu.
What are the subatomic particles with no mass called?
Subatomic particles with no mass are called neutrinos. Neutrinos are elementary particles that have extremely small, non-zero masses, but they are considered nearly massless in many calculations due to their very small mass values.
Subatomic particles are closest in mass?
Proton and neutron (components of the atomic nucleus) have masses very close.
How can the subatomic particles be distinguished?
They have different masses, electrical charge, dimensions, life time, spin etc.
Which three subatomic particles are the lightest?
The three lightest subatomic particles are electrons, neutrinos, and photons. Electrons and neutrinos have very small masses, while photons are massless.
A neutron has no charge but its mass is almost the same as the of a?
proton. Neutrons and protons are both subatomic particles found in the nucleus of atoms, with similar masses but different charges. Neutrons have no charge and are crucial for stabilizing atomic nuclei.
How do you spell particles?
That is the correct spelling of the plural noun "particles" (dust, or subatomic masses).
Weight of subatomic particles is measured by?
These masses cannot be measured directly; they are derived by calculation from other physical data.
How do you compare and contrast subatomic particles?
They have different masses, electrical charge, dimensions, life time, spin etc.
What are the weights of the subatomic particles?
I think you probably mean the mass of the classical subatomic particles, Proton, Neutron and Electron. From memory, the mass of the proton and neutron are almost the same and approximately 1.6 x 10-24 grams while the mass of an electron is about 0.9 x 10-28 grams. In the Standard Model of subatomic particles, there are very many more particles than these three and their masses are best looked up in tables. Some of the masses of subatomic particles have not yet been determined (neutrinos) and one of the theoretical particles has not yet been shown to exist at this time (Higgs boson).
