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Particles
Neutrinos
Forces
Accelerators
Symmetry
100

Ordinary matter is made of these.                                                                                                   

Fundamental particles

100

Neutrinos come in these three flavors.

Electron, muon and tau.

100

These are the four fundamental forces of nature.

Gravity, weak, electromagnetic, and strong forces.  

100

Fermilab scientists build these large machines to study fundamental elementary particles.

Accelerators and detectors.

100

An object has a shape symmetry if it looks same after this is applied.                                                          

Transformation (rotation or reflection).

200

These are the lightest and heaviest fundamental particles.                                                                                  

 Neutrino and top quark.

200

This is the phenomenon of neutrinos changing from one type into another.

Neutrino oscillation.

200

Only particles that have these properties are affected by the electromagnetic force.                                                   

Electric charge and/or magnetic moment

200

Protons are accelerated at Fermilab almost to this speed.                                                    

The speed of light.  

200

An object must have this property to exhibit a rotational symmetry.                                         

It should look exact same after you rotate it less than one full turn.

300

These fundamental particles are massless.                                                                                                         

Photon and gluon.

300

These type of neutrinos are born inside the sun.

Electron neutrinos.

300

These forces act only at the subatomic scale.               

Weak and strong nuclear forces.  

300

The protons that Fermilab accelerates come from this.

 Bottle of hydrogen gas.

300

Square has these symmetries.                        

Rotational and mirror symmetries.  

400

These fundamental particles  were discovered at Fermilab.                                                            

Top quark, bottom quark and tau neutrino.

400

These particles are born when neutrinos interact with matter.

Electron, muon and tau lepton.

400

These particles are the carriers of the electromagnetic force.                                                                   

Photons.

400

These are the two basic types of particle accelerators. 

Circular and linear.      

400

An object must have this property to exhibit a mirror symmetry.                                                                

It must have two halves that are mirror images of each other.   

500

This quark is as heavy as a gold atom.

Top quark

500

Only these forces can affect neutrinos.      

Gravity and weak.

500

This force is the weakest fundamental force. 

Gravity.

500

Only this kind of particles can be accelerated in a particle accelerators.                                                 

Electrically charged particles.

500

These physical laws are found when symmetry is observed in nature.   

Conservation laws.