Physics Topic 7 revision

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characteristics of the strong force

-acts over short distances (nucleus) -very strong -caused by internuclear repulsion of protons -mediated by gluons

Characteristics of Weak nuclear force

-acts over short distances (nucleus) -weak -includes lighter and heavier particles these particles are electrons, positrons, neutrinos, neutrons -mediated by W+, W- and Z0

Electromagnetic force

-involves charged matter -either attractive or repulsive -range is infinite -relatively strong -mediated by photons

# of quarks in a meson

2 (1 quark and 1 anti-quark)

# of quarks in a baryon

3 (all of 1 charge, either all positive or all negative)

definition of binding energy

amount of energy released when a nucleus is assembled from the component nucleons (comes from decrease in mass)

which particles go back in time in feynman diagrams

antiparticles

characteristics of gravitational force

attractive range is near infinite -quite weak force -mediated by gravitons

deflection of beta particles

behaves like a negative charge

deflection of alpha particles

behaves like a positive charge

what are artificial transmutations

bombarding a nucleus with a nucleon or another small nucleus

Equation of Radioactive decay

dN/dt (is proportional to) -N where N is the number of atoms of the element

where do beta particles originate

from the nucleus, result from a neutron decaying into a proton and a negative beta particle (and an antineutrino

when is a reaction energetically feasible

if the products have a HIGHER BINDING ENERGY than the reactants.

what are subgroups of hadrons

mesons and baryons, bosons

Do neutrinos have charge

no

can quarks be isolated?

no, they exist in 2s or 3s

deflection of gamma particles

not deflected

beta plus decay

proton decays into neutron and a positron. also emits a neutrino

what are examples of elementary particles

quarks, leptons and exchange particles

example of the nuclear fusion

sun:

What is the mass defect

the difference between the mass of an isotope and its mass number.

what happens if an electron and a positron meet

they annihilate producing 2 gamma rays

what makes hadrons special

they are composite particles, are a combination of quarks

What happens to most of the alpha particles

they go straight through the gold foil

why are gamma rays important

they result in the nucleus having less energy as the particle goes to a lower energy state

definition of half life

time taken for half the number of nuclides present in a sample to decay

neutron quark configuration

u d d

proton quark configuration

u u d

which force can cause quarks to change their type

weak interaction


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