No
It is not true that atoms are the smallest particles in the planets.
The smallest particles are electrons, protons, neutrons, and others.
Wiki User
∙ 13y agoZo
Wiki User
∙ 13y agoFalse. An atom is the smallest particle of an element, but the smallest particle in an atom (that we know of) is a gluon.
Wiki User
∙ 10y agoNo. That would be an atom, or at least it is the smallest particle of any matter you will encounter in everyday life.
Wiki User
∙ 11y agoyes, this is true
Wiki User
∙ 6y agoYes, it is true.
Anonymous
true
Anonymous
io
yup, lots of them.
A particle smaller than atom is a subatomic particle, protons , neutrons, and , electrons, the smallest one is an electron, smaller than that are point particles and elementary particles, one elementary particle and point particle is a quark, up quarks down quarks the smallest single thing found so far is a GLUON, which is the force which binds/holds quarks together. Where the devil lives in anti matter there are also atoms and subatomic particles and point particles but just anti, anti- GLUON, anti-QUARK, anti-ATOM, anti-SUBATOMIC PARTICLE. There is something called the string theory, and super string theory that theorizes about bosonic/boson strings but it can not be provine yet, and I think a gluon is still alot smaller than a bosonic/boson string if they are true. HOPE THIS HELPS
Elements are made of tiny particles called atomsAll atoms of a given element are identical (Proven wrong)The atoms of a given element are different from any other element (Not completely true)Atoms of one element can combine with atoms of another element to form chemical compounds
Well, as far as I know, all particles are made of molecules which in turn are made of atoms which again in turn are made of protons, electrons and neutrons. Going further, the protons and neutrons are made of quarks, electrons are a fundamental particle and therefore not made of anything. However, there are some gases, the noble gases (helium, neon, argon, krypton, xenon, radon) that are found naturally as single atoms. Therefore, particles of a gases might be "molecules" or "atoms," depending on the gas.
YES , A GLUON A particle smaller than atom is a subatomic particle, protons , neutrons, and , electrons, the smallest one is an electron, smaller than that are point particles and elementary particles, one elementary particle and point particle is a quark, up quarks down quarks the smallest single thing found so far is a GLUON, which is the force which binds/holds quarks together. Where the devil lives in anti matter there are also atoms and subatomic particles and point particles but just anti, anti- GLUON, anti-QUARK, anti-ATOM, anti-SUBATOMIC PARTICLE. There is something called the string theory, and super string theory that theorizes about bosonic/boson strings but it can not be provine yet, and I think a gluon is still alot smaller than a bosonic/boson string if they are true. HOPE THIS HELPS
Mars is not the smallest planet because Pluto is. Though, scientists now say that Pluto is no longer a true planet. That makes Mercury the smallest planet in our Solar System.
No. This is a definition of an atom. Electrons are only part of atoms.
Mercury is now the smallest 'true' planet in our solar system. Pluto was the smallest planet before the definition of a planet was revamped. Now, if you include dwarf and minor planets, the next biggest is Eris.
Atoms are in a solid but as in particles it depends on the object.
Mars is not the smallest planet because Pluto is. Though, scientists now say that Pluto is no longer a true planet. That makes Mercury the smallest planet in our Solar System.
True. Atoms are the smallest units of an element therefore making all atoms elements.
TRUE
Scientists believe that atoms are the smallest things on Earth, but they are not positive if this is entirely true. Years ago people thought a grain of and was the smallest.
Gas particles (atoms, molecules) composing the atmosphere of a planet have a mass, therefore they are trapped by the gravitational field of the planet. This is not only true for giant planets but applies to all planets with atmosphere.
Gas particles (atoms, molecules) composing the atmosphere of a planet have a mass, therefore they are trapped by the gravitational field of the planet. This is not only true for giant planets but applies to all planets with atmosphere.
true
yup, lots of them.