11.4 Particle accelerators and detectors  (Page 6/10)

Briefly compare the Van de Graaff accelerator, linear accelerator, cyclotron, and synchrotron accelerator.

Describe the basic components and function of a typical colliding beam machine.

What are the subdetectors of the Compact Muon Solenoid experiment? Briefly describe them.

What is the advantage of a colliding-beam accelerator over one that fires particles into a fixed target?

An electron appears in the muon detectors of the CMS. How is this possible?

A charged particle in a 2.0-T magnetic field is bent in a circle of radius 75 cm. What is the momentum of the particle?

A proton track passes through a magnetic field with radius of 50 cm. The magnetic field strength is 1.5 T. What is the total energy of the proton?

Derive the equation $p=0.3Br$ using the concepts of centripetal acceleration ( Motion in Two and Three Dimensions ) and relativistic momentum ( Relativity )

Assume that beam energy of an electron-positron collider is approximately 4.73 GeV. What is the total mass ( W ) of a particle produced in the annihilation of an electron and positron in this collider? What meson might be produced?

At full energy, protons in the 2.00-km-diameter Fermilab synchrotron travel at nearly the speed of light, since their energy is about 1000 times their rest mass energy. (a) How long does it take for a proton to complete one trip around? (b) How many times per second will it pass through the target area?

Suppose a $W^{\text{−}}$ created in a particle detector lives for $5.00\times {10}^{\mathrm{-25}}\text{s}$ . What distance does it move in this time if it is traveling at 0.900 c ? (Note that the time is longer than the given $W^{\text{−}}$ lifetime, which can be due to the statistical nature of decay or time dilation.)

What length track does a ${\pi }^{+}$ traveling at 0.100 c leave in a bubble chamber if it is created there and lives for $2.60\times {10}^{\mathrm{-8}}\text{s}$ ? (Those moving faster or living longer may escape the detector before decaying.)

The 3.20-km-long SLAC produces a beam of 50.0-GeV electrons. If there are 15,000 accelerating tubes, what average voltage must be across the gaps between them to achieve this energy?