Deck 13: The Ultimate Structure of Matter: How Can Antimatter Be Used to Probe the Human Brain

A) destruction of the universe
B) energy
C) waste heat
D) nuclear fusion
E) nuclear fission

A) Photon
B) electron
C) hadron
D) neutrino
E) leptons

A) top
B) bottom
C) strange
D) charm
E) up

A) gravitational force.
B) weak force.
C) electromagnetic force.
D) strong force.
E) electroweak force.

A) philosophical theories about how everything on Earth is organized.
B) secular theories of how life began.
C) fully unified theories about how all fundamental forces come together.
D) current political theories about global annihilation.
E) science fiction.

A) leptons
B) protons
C) electrons
D) antiparticles
E) photons

A) 1 quark = +1
B) 1/2 quark + 1/2 quark = +1
C) 2/3 quark + 2/3 quark + (-1/3 quark) = +1
D) 2/3 quark + 1/3 quark = +1
E) 1/2 quark + 1/2 quark = -1

A) produce streams of 'artificial cosmic rays.'
B) attract more people to the science field.
C) support international cooperation.
D) detect nuclear weapons testing.
E) conduct basic research into TOEs.

A) graviton
B) cyclotron
C) synchrotron
D) linear accelerator
E) medical X-ray machine

A) strong and weak
B) electromagnetic and strong
C) weak and gravity
D) gravity and electromagnetic
E) strong and gravity

A) DNA
B) a glucose molecule
C) a neutron
D) an electron
E) a proton

A) quarks exist in the nucleus; leptons do not.
B) leptons appear in the nucleus; quarks do not.
C) quarks can appear as free particles; leptons cannot.
D) matter is made of quarks; leptons are exchanged to produce forces.
E) none; they are two names for the same particle.

A) hadron
B) electron
C) mu
D) positron
E) proton

A) quark, neutron, nucleus, atom, molecule
B) molecule, atom, nucleus, neutron, quark
C) molecule, atom, neutron, proton, quark
D) atom, neutron, quark, proton, electron
E) neutron, proton, electron, quark, nucleus

A) cloud chamber
B) positron emission tomography
C) cartographic topography
D) genetically engineered vegetables
E) medical X-ray machine

A) 1
B) 2
C) 3
D) any of 1, 2, or 3 could be used to detect elementary particles
E) none of 1, 2, or 3 could be used to detect elementary particles

A) the Moon and Earth
B) the international space station and an astronaut
C) two adjacent molecules of oxygen in the atmosphere
D) the Orion Nebula and a newborn baby
E) all of these pairs of objects and all pairs of objects in the universe

A) Quarks exist as free-floating particles in space.
B) Quarks have positive and negative charges that are all multiples of two.
C) Quarks form the basic structure of all electrons.
D) Only six kinds of quarks make up the hundreds of nuclear particles.
E) Quarks can be isolated and observed in a cloud chamber.

A) electromagnetic and gravity combine first, then strong, finally weak
B) electromagnetic and strong combine first, then weak, finally gravity
C) weak and strong combine first, then electromagnetic, finally gravity
D) electromagnetic and weak combine first, then strong, finally gravity
E) gravity and weak combine first, then electromagnetic, finally strong

A) Anderson's cloud chamber detected cosmic rays.
B) Ionized particles were blocked from Anderson's cloud chamber.
C) Vibrations from celestial movements were filtered from the Anderson apparatus.
D) Anderson used magnets, which detected antimatter.
E) Anderson's device was the first to incorporate electron microscopes in the design.

A) electrical charge and magnetic characteristics.
B) mass and electrical charge.
C) mass and electrical charge, but opposite magnetic characteristics.
D) mass, but opposite electrical charge and magnetic characteristics.
E) mass and magnetic characteristics, but opposite electrical charge.

A) have no charge.
B) are mostly electrons.
C) fall to the ground without interacting with anything in the Earth's atmosphere.
D) were created by humans as a source of high-energy particles.
E) are particles that fall on Earth from outer space.

A) aerobic physiology.
B) hydrogen bombs.
C) solar flares.
D) electromagnetic radiation.
E) elementary particles.

A) the wind.
B) a photon.
C) both W and Z.
D) a gluon.
E) an electron.