Answered: The Fermilab Alvarez Linac accelerates… | bartleby

Related questions

Question

Exercise 3: Momentum and Energy
The Fermilab Alvarez Linac accelerates protons with mass at rest m=
938 MeV to a kinetic energy K= 400 MeV.
a) Calculate the total energy of the protons in units of MeV.
b) Calculate the momentum of the protons in units of MeV/c.
c) Calculate the relativistic gamma factor.
d) Calculate the proton velocity in units of the velocity of light.

Expert Solution

Trending now

This is a popular solution!

Step by step

Solved in 3 steps with 7 images

SEE SOLUTION Check out a sample Q&A here

Blurred answer

Similar questions

a) How far does a beam of muons with kinetic energy of i) 1 MeV, ii) 100 GeV pass through in empty space until its intensity is reduced to one half of its initial value? b) When do you use relativistic kinematics and when do you use Newtonian kinematics?
4. An proton-antiproton pair is produced by a 2.05 × 10³ MeV photon. What is the kinetic energy of the antiproton if the kinetic energy of the proton is 43.45 MeV? Use the following Joules-to-electron-Volts conversion The rest mass of a proton is 1.67 × 10- -27 MeV ssfo kg. 60 ssf60 = 1.602 x 10-19 ssf60 ssforss ssf60 ssf60 ssi f60 ssf60 ssf60 si
The intensity of cosmic ray radiation decreases rapidly with increasing energy, but there are occasionally extremely energetic cosmic rays that create a shower of radiation from all the particles they create by striking a nucleus in the atmosphere as seen in the figure given below. Suppose a cosmic ray particle having an energy of 1010 GeV converts its energy into particles with masses averaging 200 MeV/c2 . (a) How many particles are created? (b) If the particles rain down on a 1.00-km2 area, how many particles are there per square meter?
A particle of rest energy (moc) moving with speed (v) in the positive x-direction. This particke decays into tuo particles, each having rest energy of 140 Mev. One particles has of the olecay a kinetic of 282 Mev andd moreš in energy the positive x- direction. The other decay particle has a kinetic in the negative energy of 25 MeV and moves x-direction. a) calculate the rest energy Cmo c") 6) Calculate the speecl (v) of the nitial particle. before ofter mo Ek = 25 mev Ek = 82 meV %3D
I need the answer as soon as possible
Suppose that you have found a way to convert the rest energy of any type of matter directly to usable energy with an efficiency of 69.0%69.0%. How many liters of water would be sufficient fuel to very slowly push the Moon 3.10 mm3.10 mm away from the Earth? The density of water is ?water=1.00kg/literρwater=1.00kg/liter, the Earth's mass is ?earth=5.97×1024 kgMearth=5.97×1024 kg, the Moon's mass is ?moon=7.36×1022 kgMmoon=7.36×1022 kg, and the separation of the Earth and Moon is ?E,M=3.84×108 mdE,M=3.84×108 m.
Two electrons are initially held at rest 5pm away from each other. they are then released. when the two electrons are far away from each other, how fast are they moving? remember 1pm=10^-12m. the answer should be 7.1 x 10^6m/s? answer is 7.1x10^6 m/s. please help me calculate this answer value?
3. What is the kinetic energy in MeV of a of a π-meson that lives 1.40 × 10−16 s as measured in the laboratory, and 0.840 × 10−16 s when at rest relative to an observer, given that its rest energy is 135 MeV? Please put the solution and indicate what is the answer. Topic: realistic energy and momentum
A recent home energy bill indicates that a household used 395 kWh (kilowatt-hour) of electrical energy and 175 therms for gas heating and cooking in a period of 1 month. Given that 1.00 therm is equal to 29.3 kWh, how many milligrams of mass would need to be converted directly to energy each month to meet the energy needs for the home? mass needed: mg
4. Suppose some object in space emits a muon and a photon at the same time. The muon's decay timescale is 2.2 usec. This is actually a characteristic decay time, but for this problem, we will assume it's the maximum lifetime of the muon. Let this object in space be at a distance of 100 light years from Earth. How much sooner will the photon, which moves at the speed of light, arrive at Earth than the muon?
Provide the answers in 90 minutes, and count as 2 questions if needed.
a) Calculate the kinetic energy of an electron whose momentum is 2 MeV/c. b)Calculate the velocity of electron whose kinetic energy is 2 MeV.

SEE MORE QUESTIONS