yes. plasma is just a physical state of matter and therefore that matter will have a mass. its what stars are made of; superheated hydrogen. it also exists in fusion accelerators (PBFA - particle beam fusion accelerator) or at the instance that lighting strikes and super-heats the air around the flowing current.
Generally not. Plasma is simply ionized gas, consisting of free electrons, which have less mas than protons, and positively charged ions, which, unless the gas is hydrogen, have more mass than protons.
Plasma certainly does have a density as do many other fluids. All of the objects, elements, and contents that exist have density.
Yes.
Plasma is an ionized gas ... the ionization process does not change the mass significantly.
Plasma has a mass.
Composite subatomic particles (such as protons or atomic nuclei) are bound states of two or more elementary particles. For example, a proton is made of two up quarks and one down quark, while the atomic nucleus of helium-4 is composed of two protons and two neutrons.
Protons and nuetrons Dom says: Protons and Neutrons.
Under normal conditions, a gas is mainly made up of uncharged particles. That is, the individual gas atomsinclude equal numbers of protons (positively charged particles in the atom's nucleus) and electrons. The negatively charged electrons perfectly balance the positively charged protons, so the atom has a net charge of zero.
. . . the two with (appreciable) mass: protons and neutrons.The atomic mass number of an element is determined by mass of the nucleus of an atom. Therefore the particles that make up the nucleus determine the mass number. These particles are protons and neutrons.The mass of the protons and neutrons do not vary between elements, but the number of each in the nucleus varies between elements and between isotopes of the same element.Protons and neutrons.idk dont asqq meehThe sum of the numbers of protons and neutrons determine the mass number. Electrons have negligible mass compared to protons and neutrons.The particles counted are neutrons and protons each having a relative atomic mass of 1. The atomic number is the number of protons.Atomic mass of an atom is the mass of the nucleus.Hence the atomic mass is the sum of the number of protons an neutrons present in the nucleus of the atom. The electrons are not considered as their mass is negligible compared to the mass of the neutrons and protons.
number of protons and number of neutrons
Protons and plasma particles are very different objects.
Neutrons have the same mass as a proton and be electrically neutral. Protons and neutrons have almost the same mass.
Protons and neutrons have the same mass
Protons and neutrons have almost the same mass.
Composite subatomic particles (such as protons or atomic nuclei) are bound states of two or more elementary particles. For example, a proton is made of two up quarks and one down quark, while the atomic nucleus of helium-4 is composed of two protons and two neutrons.
No two subatomic particles have the exact same mass. The proton and the neutron, however, come close. Neutrons are heavier than protons by only 2.3 X 10-30 kg.
Protons and neutrons have about the same mass, with the neutron being slightly more massive.
No, they are completely different. A proton is much larger than and electron and carries a positive charge. Protons can be divided into smaller particles called quarks. An electron is tiny compared to a proton and carries a negative charge. Electrons are fundamental particles, meaning they cannot be divided into smaller particles.
Protons and neutrons have near identical mass. One will not have to account for the difference in mass in most calculations.
The masses of protons and neutrons are very close, but not the same. A proton is about 1.001378 times more massive than a neutron.
Protons and neutrons have about the same mass. Protons and neutrons both have a mass of 1.67*10-27 kg, the last one being less than 0.2% heavier than a proton (at rest).
Protons and neutrons are the two particles that are in the nucleus of an atom. Electrons orbit around the atom