Difference between revisions of "Hadron"

Created page with "=== Explanation === A hadron is a particle that is composed of quarks. Based on the number of quarks it is made up of, there are two types of hadrons. Baryon is a kind..."
 
m Explanation
 
(One intermediate revision by the same user not shown)
Line 1: Line 1:
 +
[[Category: Physics]]
 
=== Explanation ===
 
=== Explanation ===
A hadron is a particle that is composed of [[quark]]s. Based on the number of quarks it is made up of, there are two types of hadrons. [[Baryon]] is a kind of hadron that is made up of three quarks. Well known baryons are the nucleons—[[proton]]s and [[neutron]]s. A [[Meson]] is the second type of hadron that is composed of one quark and one antiquark. A [[pion|pi meson]] is an example of meson. In a hadron, the quarks are held up together by the [[strong interaction]], which is mediated by the exchange of [[gluons]].
+
A hadron is a particle that is composed of [[quark]]s. Based on the number of quarks it is made up of, there are two types of hadrons. [[Baryon]] is a kind of hadron that is made up of three quarks. Well known baryons are the nucleons—[[proton]]s and [[neutron]]s. A [[meson]] is the second type of hadron that is composed of one quark and one antiquark. A [[pion|pi meson]] is an example of meson. In a hadron, the quarks are held up together by the [[strong interaction]], which is mediated by the exchange of [[gluon]]s.
  
 
=== Frequently Asked Questions ===
 
=== Frequently Asked Questions ===
 
=== How baryons are held together inside the atomic nucleus? ===
 
=== How baryons are held together inside the atomic nucleus? ===
 
Baryons like protons and neutrons are held together inside the [[atomic nucleus]] by the [[nuclear force]], which is a residual force that arises from the strong interaction. Inside the nucleus, this residual force is mediated by the exchange of pi mesons.
 
Baryons like protons and neutrons are held together inside the [[atomic nucleus]] by the [[nuclear force]], which is a residual force that arises from the strong interaction. Inside the nucleus, this residual force is mediated by the exchange of pi mesons.

Latest revision as of 04:12, 1 January 2017

Explanationedit

A hadron is a particle that is composed of quarks. Based on the number of quarks it is made up of, there are two types of hadrons. Baryon is a kind of hadron that is made up of three quarks. Well known baryons are the nucleons—protons and neutrons. A meson is the second type of hadron that is composed of one quark and one antiquark. A pi meson is an example of meson. In a hadron, the quarks are held up together by the strong interaction, which is mediated by the exchange of gluons.

Frequently Asked Questionsedit

How baryons are held together inside the atomic nucleus?edit

Baryons like protons and neutrons are held together inside the atomic nucleus by the nuclear force, which is a residual force that arises from the strong interaction. Inside the nucleus, this residual force is mediated by the exchange of pi mesons.