Consider an experiment with a beam of relativistic particles
hitting a target. Show that the cross-...
Consider an experiment with a beam of relativistic particles
hitting a target. Show that the cross- sectional area perpendicular
to the direction of the beam propagation is a relativistic
invariant.
Consider an experiment with a beam of relativistic particles
hitting a target. Show that the cross-sectional area perpendicular
to the direction of the beam propagation is a relativistic
invariant.
In an experiment with cosmic rays, a vertical beam of particles that have charge of magnitude e and mass 6 times the proton mass enters a uniform horizontal magnetic field of B-0.5T and is bent in semicircle of diameter 50cm as shown in Figure. Find a speed of the particles as they enter the field. in m/s, 2 significant figures.
In an experiment with cosmic rays, a vertical beam of particles that have charge of magnitude 3e and mass 12 times the proton mass enters auniform horizontal magnetic field of 0.250 T and is bent in a semicircle of diameter 95.0 cm, as shown in the figure.a) Find the speed of the particles.b) Find the sign of particles' charge.c) Is it reasonable to ignore the gravity force on the particles?d) How does the speed of the particles as they enter...
A bad marksman takes 10 shots at a target with probability of
hitting the target with each shot of 0.1, independent of other
shots. Z is the random variable representing the number of
hits.
a) Calculate and plot the PMF of Z.
b) Calculate and plot CDF of Z. (You may desire to manual adjust
the plot for our convention)
c) What is the probability that 3 < ?? < 5 shots were
hits
d) Find E[Z] and var[Z]
e)...
The probability of a man not hitting the target at a shooting
range is .6. A success is defined as hitting the target. If he
shoots 12 times, what is the probability that he misses the target
just once? Do not use the table in the back of the textbook. (round
to the ten thousandths place) ____
The probability of a man not hitting the target at a shooting
range is .6. A success is defined as hitting the target....
A beam of particles is prepared in a momentum eigenstate 0 p09.
The beam is directed to a shutter that is open for a finite time t.
a) Find the wave function of the system immediately after passing
through the shutter. b) Find the momentum probability distribution
of the beam after the shutter
NOTE: i know the answer of this problems but in the solution
manual the wave function is written in which a tern d is introduced
i dont...
Consider an electron beam of uniform circular cross-section with
a diameter of 1 mm. The electrons are accelerated from the cathode
to the anode, which are separated by 1 m. The electrons are
generated at the cathode and therefore have negligible velocity at
this position. The electrons accelerate at a rate of 108 ?/?2
between the cathode and anode. The current density at the anode is
104 ?/?2 .
Find the current density as a function of position between the...
Consider an experiment in which we bombard an unknown, quantum
system with a broad beam of monochromatic light. By varying the
frequency of the light, we detect which frequencies are absorbed by
the system and which pass through. What characteristics do those
frequencies exhibit if our system is a simple harmonic
oscillator?
A marksman's chance of hitting a target with each of his shots
is 60%. (Assume the shots are independent of each other.) If he
fires 30 shots, what is the probability of his hitting the target
in each of the following situations? (Round your answers to four
decimal places.) (a) at least 21 times (b) fewer than 13 times (c)
between 14 and 21 times, inclusive
A large cyclotron directs a beam of He++ nuclei onto a target
with a beam current of 0.245 mA.
(a) How many He++ nuclei per second is this? He++ nuclei/s
(b) How long (in s) does it take for 1.35 C to strike the
target? s
(c) How long (in s) before 1.20 mol of He++ nuclei strike the
target? s
Please show step by step with legible writing. Thank you