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I'd be willing to bet the farm that this question is only inquiring about protons, neutrons, and electrons, but I'll be more thorough anyways. First off, out of the previously mentioned particles; electrons are the lightest, having a mass of 9.109 X 10-31 kg or 511 keV/c2; followed by protons, with a mass of 1.672 X 10-27 kg or 938.3 MeV/c2; and finally ending with neutrons, having a mass of 1.675 X 10-27 kg or 939.6 MeV/c2.
Now, as for all of the other subatomic particles out there, we have a tie for the lightest: photons and gluons; both weighing in at a paltry 0. Both particles are members of the larger group of particles known as gauge bosons, which means that they are force mediating particles. Photons mediate the electromagnetic force, and are found in such atomic processes as gamma decay and X-ray emission. Gluons mediate the strong nuclear force, and are the guys responsible for keeping quarks confined within protons and neutrons.
As a side note, there are actually 8 types of gluons, meaning that there's actually a 9-way tie for lightest subatomic particle. However, explaining the what's, why's, and how's for there being 8 gluons is WAY beyond the scope of this answer, especially considering that I've probably already gone too far.
That being said:
There may be another massless particle out there called the graviton. Gravitons are the proposed gauge bosons that would mediate the force of gravity. Also, the graviton's existence is a necessary condition for pretty much all of the most promising "Theories Of Everything" to be correct. However, they thus far remain unobserved.
It depends, in part, on the definition of mass used. Nowadays, physicists often use what was traditionally called the "rest mass", now sometimes called the "invariant mass", because it is the same for all frames of reference. A photon has a rest mass of zero.
Of objects that move at LESS than the speed of light, the neutrino has an extremely small rest mass. Since the neutrino moves so extremely fast, it was believed for some time to travel at the speed of light, but it seems its speed is actually slightly less.
It depends, in part, on the definition of mass used. Nowadays, physicists often use what was traditionally called the "rest mass", now sometimes called the "invariant mass", because it is the same for all frames of reference. A photon has a rest mass of zero.
Of objects that move at LESS than the speed of light, the neutrino has an extremely small rest mass. Since the neutrino moves so extremely fast, it was believed for some time to travel at the speed of light, but it seems its speed is actually slightly less.
It depends, in part, on the definition of mass used. Nowadays, physicists often use what was traditionally called the "rest mass", now sometimes called the "invariant mass", because it is the same for all frames of reference. A photon has a rest mass of zero.
Of objects that move at LESS than the speed of light, the neutrino has an extremely small rest mass. Since the neutrino moves so extremely fast, it was believed for some time to travel at the speed of light, but it seems its speed is actually slightly less.
It depends, in part, on the definition of mass used. Nowadays, physicists often use what was traditionally called the "rest mass", now sometimes called the "invariant mass", because it is the same for all frames of reference. A photon has a rest mass of zero.
Of objects that move at LESS than the speed of light, the neutrino has an extremely small rest mass. Since the neutrino moves so extremely fast, it was believed for some time to travel at the speed of light, but it seems its speed is actually slightly less.
what you mean to say is what subatomic particle has the lowest mass? Which would be by far the neutron
You probably meant to say the neutrino.
Although note that the photon has zero mass, which is even less than that of a neutrino.
EDIT: I struck out the wrong answers. The photon and gluon have the smallest mass of all particles, both of which have zero mass; however, the photon does have momentum (recall that, traditionally, momentum is proportional to velocity and mass) and I am unsure if the gluon does (in fact, nobody knows because gluons have never been directly observed and tested.)
It depends, in part, on the definition of mass used. Nowadays, physicists often use what was traditionally called the "rest mass", now sometimes called the "invariant mass", because it is the same for all frames of reference. A photon has a rest mass of zero.
Of objects that move at LESS than the speed of light, the neutrino has an extremely small rest mass. Since the neutrino moves so extremely fast, it was believed for some time to travel at the speed of light, but it seems its speed is actually slightly less.
The subatomic particle with the smallest mass is the electron. It is about 1,800 times lighter than a proton or neutron.
Photons and gluons have no mass and neutrinos have a small but nonzero mass.
the quark has the smallest mass in an atom, but there are lighter subatomic particles
the quark ;)
The above answer is wrong. Photons and gluons have no mass and neutrinos have a small but nonzero mass.
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Which subatomic particle is least massive?
An electron is the least massive subatomic particle. It has a mass of approximately 9.11 x 10^-31 kilograms.
What is the lightest subatomic particle of an atom?
The lightest subatomic particle of an atom is the electron. It has a very small mass compared to protons and neutrons, making it a key component in determining the chemical properties of an atom.
What term is used to define the way mass of subatomic particles is described?
Atomic Mass units
How do you call a subatomic particle that has no mass and a negative charge?
A subatomic particle with no mass and a negative charge is called an electron. Electrons are a fundamental component of an atom and play crucial roles in electricity, magnetism, and chemical bonding.
What is the subatomic particle with no mass?
Technically all subatomic particles have mass. However, the electron is so small that it was once considered to have no mass. Wrong, both photons and gravitons are subatomic particles with no mass.
Which has the smallest mass?
An electron has the smallest mass compared to a proton and a neutron.
Does subatomic particles have the smallest mass of any subatomic particle?
The electron has the smallest mass between subatomic particles: 9,10938291(40).10-31 kg.
Which subatomic particle has the smallest mass alpha particle neutron electron proton?
among these Electron has the least mass....
What subatomic particle Has the smallest relative mass?
In the atom the electron is the lightest.
What is the smallest part of matter possible?
a subatomic particle
What is the smallest subatomic particle Hobbs?
If you think to the boson Higgs this is not a small particle.
What subatomic particle has the less mass?
The electron is the subatomic particle with the least mass. It has a mass of about 1/1836 of a proton or neutron.
What is the subatomic particle that has the greatest mass?
The subatomic particle with the greatest mass is the neutron. Neutrons are found in the nucleus of atoms along with protons, but they are slightly more massive than protons. Electrons, which orbit the nucleus, have much less mass compared to neutrons and protons.
Which subatomic particle has a charge of 0 and a mass of 1 atomic mass unit?
A neutron is the subatomic particle with a charge of 0 and a mass of 1 atomic mass unit.
Where can you find the smallest subatomic particle?
The smallest subatomic particles can be found within the nucleus of an atom. These include protons and neutrons, which are further composed of even smaller particles called quarks.
Which subatomic particle has a greater mass proton or element?
An "element" is not a subatomic particle. Your question makes no sense and is therefore unanswerable.Another answer:Since an element is not a subatomic particle, the only answer can be a proton.
What particle have mass of lamu?
The tau neutrino has mass and is denoted with the symbol μ.
