Difference between revisions of "Strong Nuclear Interaction"
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: The '''strong nuclear force''' holds [[quark]]s together within [[baryon]]s. | : The '''strong nuclear force''' holds [[quark]]s together within [[baryon]]s. | ||
: The '''strong nuclear force''' holds [[proton]]s and [[neutron]]s together in the [[Atomic Nucleus|atomic nucleus]]. | : The '''strong nuclear force''' holds [[proton]]s and [[neutron]]s together in the [[Atomic Nucleus|atomic nucleus]]. | ||
| − | : The '''strong nuclear force''' is [[attract]]ive at a range of 0.5[[Femtometre|fm]] to around 3-4[[femtometre|fm]] | + | : The '''strong nuclear force''' is [[attract]]ive at a range of 0.5[[Femtometre|fm]] to around 3-4[[femtometre|fm]] and is [[repel|repulsive]] below 0.5[[Femtometre|fm]]. |
Revision as of 16:01, 17 July 2019
Key Stage 5
Meaning
The strong nuclear force is a force allowing the interaction between hadrons.
About The Strong Nuclear Force
- The strong nuclear force is one of the 4 fundamental forces governing the interaction between particles.
- The strong nuclear force holds quarks together within baryons.
- The strong nuclear force holds protons and neutrons together in the atomic nucleus.
- The strong nuclear force is attractive at a range of 0.5fm to around 3-4fm and is repulsive below 0.5fm.