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Rapid Review Parts of the ATOM Test # 2.

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Presentation on theme: "Rapid Review Parts of the ATOM Test # 2."— Presentation transcript:

1 Rapid Review Parts of the ATOM Test # 2

2 Lesson 8 The symbol for an electron is : e- e+ eo p+

3 The symbol for an electron is :
eo p+

4 The region where an electron can be found is called an orbit, shell, energy level or:
Quark Quantum Modulation

5 The region where an electron can be found is called an orbit, shell, energy level or:
Quark Quantum Modulation This diagram shows what we think a quantum might look like: Orbital = Quantum

6 Quantum # # of electrons held
“?” “?”

7 Quantum # # of electrons held
“2” “8”

8 The number of electrons in the outer Quantum determines the “
The number of electrons in the outer Quantum determines the “?” of an element : Electrons Physical Properties Chemical Properties

9 The number of electrons in the outer Quantum determines the “
The number of electrons in the outer Quantum determines the “?” of an element : Electrons Physical Properties Chemical Properties

10 Atoms that have 8 electrons in their outer shell are Chemically “?”
Reactive Unstable Unreactive

11 Atoms that have 8 electrons in their outer shell are Chemically “?”
Reactive Unstable Unreactive Blimps with Helium in them are Chemically Unreactive. Those with Hydrogen (1 valence electron) are Chemically Reactive !

12 When e-'s absorb energy, they will often "Quantum Leap" out to the next Quantum. When they jump back, they release energy, usually as: Electrons Light or Heat Sound

13 When e-'s absorb energy, they will often "Quantum Leap" out to the next Quantum. When they jump back, they release energy, usually as: Electrons Light or Heat Sound

14 Lesson 9 Machines, like those at CERN and the FERMI Lab, are used to :
Smash protons and neutrons Add excess radiation to an atom Study Radioisotopes

15 Smash protons and neutrons
Machines, like those at CERN and the FERMI Lab, are used to : Smash protons and neutrons Add excess radiation to an atom Study Radioisotopes Tracks of Sub-Atomic Particles released after smashing a neutron into a nucleus at CERN

16 The most important Sub-Atomic Particles seem to be the :
Neutrinos Quarks Photons

17 Quarks The most important Sub-Atomic Particles seem to be the :
Neutrinos Quarks Photons

18 There are 6 kinds of Quarks that seem to come in pairs, name the pair partners to these quarks:
Up “?” Charm “?” Top “?”

19 There are 6 kinds of Quarks that seem to come in pairs, name the pair partners to these quarks:
Up Down Charm Strange Top Bottom

20 The current theory about what Quarks are made of, is :
Muons Strings Quarkettes Chions

21 Strings The current theory about what Quarks are made of, is : Muons
Quarkettes Chions

22 Beta Decay of Rubidium-81
Lesson 10 This force controls the rate of Decay of Radioisotopes. This determines the Half-Life Electromagnetic Force Strong Force Weak Force Gravity Force Beta Decay of Rubidium-81

23 This force controls the rate of Decay of Radioisotopes
This force controls the rate of Decay of Radioisotopes. This determines the Half-Life Electromagnetic Force Strong Force Weak Force Gravity Force

24 This is the weakest & least understood force
This is the weakest & least understood force. This force binds planets, stars and galaxies together Electromagnetic Force Strong Force Weak Force Gravity Force

25 This is the weakest & least understood force
This is the weakest & least understood force. This force binds planets, stars and galaxies together Electromagnetic Force Strong Force Weak Force Gravity Force

26 This force holds the atom's electrons around the nucleus, by having "+" attracting to "-“
Electromagnetic Force Strong Force Weak Force Gravity Force

27 This force holds the atom's electrons around the nucleus, by having "+" attracting to "-“
Electromagnetic Force Strong Force Weak Force Gravity Force

28 Allows the Neutrons to hold the repelling protons together
Allows the Neutrons to hold the repelling protons together. This lets the nucleus form Electromagnetic Force Strong Force Weak Force Gravity Force

29 Allows the Neutrons to hold the repelling protons together
Allows the Neutrons to hold the repelling protons together. This lets the nucleus form Electromagnetic Force Strong Force Weak Force Gravity Force

30 This force best describes “Nuclear Bomb”.
Gravity Force Electromagnetic Force Strong Force Weak Force

31 This force best describes “Nuclear Bomb”.
Gravity Force Electromagnetic Force Strong Force Weak Force

32 This force best describes “Magnets and Electricity “
Gravity Force Electromagnetic Force Strong Force Weak Force

33 This force best describes “Magnets and Electricity “
Gravity Force Electromagnetic Force Strong Force Weak Force

34 This force best describes “Decay of Radioisotopes”.
Gravity Force Electromagnetic Force Strong Force Weak Force

35 This force best describes “Decay of Radioisotopes”.
Gravity Force Electromagnetic Force Strong Force Weak Force

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