Assume that the \(|+z\rangle\) and \(|-z\rangle\) states for an electron in a magnetic field are energy eigenvectors with energies \(E\) and 0, respectively, and assume that the electron’s state at \(t = 0\) is\[|\psi(0)\rangle = \begin{bmatrix} \sqrt{\frac{4}{5}} \\ \sqrt{\frac{1}{5}} \end{bmatrix}\]Find the probability that we will determine this electron’s spin to be in the \(+x\) direction at time \(t\).

We will find the probabilityfor finding electron at +x direction at time t

Assume that the 1+z) and |-z) states for an electron in a magnetic field are energy eigen- vectors with energies E and 0, respectively, and assume that the electron's state at t = 0 is -M |y(0)) = |45|-In Find the probability that we will determine this electron's spin to be in the +x direction at time t

Assume that the 1+z) and |-z) states for an electron in a magnetic field are energy eigen- vectors with energies E and 0, respectively, and assume that the electron's state at t = 0 is -M |y(0)) = |45|-In Find the probability that we will determine this electron's spin to be in the +x direction at time t

Related questions

Q: Suppose an clectron is in a state described by the wave function 1 (e sin 6 + cos 0) g(r), where I…

Q: ∆E ∆t ≥ ħ Time is a parameter, not an observable. ∆t is some timescale over which the expectation…

Q: the probability th

Q: Evaluate the lifetime (in seconds) of the transition |2, 1,0) → |1,0,0) of hydrogen.

A: Step 1:Step 2:Step 3:

Q: View the particle system in a one-dimensional box in the range ≤ x ≤ of m-mass and q- charged…

A: The required solution is given below.

Q: (a) The lifetime of a highly unstable nucleus is 10-12 s. What is the smallest uncertainty (in ev)…

A: NOTE :- We’ll answer the first question since the exact one wasn’t specified. Please submit a new…

Q: (WF-2) The wave function for a proton moving in 1D is given by: y(x) = Csin(x) for 0 ≤ x ≤ñ and zero…

A: We are given wave function. We have to normalize the wave function. The normalization condition is…

Q: In high static-magnetic field environment, such stellar interiors, the energy levels of a H-atom are…

A: In this question, we have given Energy eigenvalues which also depend on the n, l, and m values. So…

Q: The energy eigenvalues of a particle in a 3-D box of dimensions (a, b, c) is given by ny E(nx, ny,…

Q: Magnetic field B = 2.7 T. Find the energy of transition of the proton from the basic state to the…

A: We have a proton in a magnetic field B=2.7 T transitioning from ground to the first excited state.…

Q: The eigenfunctions satisfy the condition | Vi (x)m(x)dx = &nm , &nm = 1 if n %3D %3D = m , otherwise…

Q: 2. A particle of mass m is moving in an infinite 1D quantum well of width L. V„(x) = Visinx. NAX (a)…

A: Let us solve both parts of the problem, where we are asked to find, Energy needed to be given to…

Q: Assume that the |+z) and |−z) states for an electron in a magnetic field are energy eigen- vectors…

Q: A wave function of a particle with mass m is given by, Acosa ≤ ≤+ otherwise b(z) = {1 Find the…

A: See step 2 .

Q: Assume that the |+z) and |-z) states for an electron in a magnetic field are energy eigen- vectors…

Q: Angular momentum is best expressed as a vector, 1= (L,,!y,lz). In quantum mechanics, the…

Q: Show that if (x) and (x) are solutions of the time independent Schrödinger equation, Y(x,t) =…

Q: A three-dimensional wave function of a particle is u(x)=c/r exp(-kr/i)calculate the probability…

Q: Time is a parameter, not an observable. ∆t is some timescale over which the expectation value of an…

Q: Consider a system of N non - interacting particles. Each particle is fixed in position and can sit…

A: the general approach and concepts involved. The problem appears to be related to determining the…

Q: A particle of mass m is moving in an infinite 1D quantum well of width L. ½(x) = Vi sin (а) How much…

Q: = Consider a particle with mass m in an infinite square well of width L = 1, with energy E (a) What…

Question

Assume that the \(|+z\rangle\) and \(|-z\rangle\) states for an electron in a magnetic field are energy eigenvectors with energies \(E\) and 0, respectively, and assume that the electron’s state at \(t = 0\) is

\[
|\psi(0)\rangle = \begin{bmatrix} \sqrt{\frac{4}{5}} \\ \sqrt{\frac{1}{5}} \end{bmatrix}
\]

Find the probability that we will determine this electron’s spin to be in the \(+x\) direction at time \(t\).

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1: solution

VIEW

Step 2: solution

VIEW

Solution

VIEW

Step by step

Solved in 3 steps with 1 images

SEE SOLUTION Check out a sample Q&A here

Similar questions

in quantum mechanics ; calculate the eigenvalue of these operators L2 , Lz when l equal to 6 ?
Show that at limit ħo kgT, the following expression, h €(w, T) = c exp(Bho)-1 reduces to the classical form given by: e(w, T)= Ac ³(kgT)w²: ² = 0 [₁²³ (²+²)]. Ac
You want to determine the possible energy observable values of a particle in a non- zero potential described by a wave function. Which of the following equations represents that process? ħ² 2m ·V² + V| y = 0 +17] 26 οψ ħ² [2²] =0 &= 04 2m – iħ√y = oy xy = 06
[QUANTUM PHYSICS]
The average lifetime of a Z boson is about 3.0 x 10 J Need Help? Read It -25 s. Estimate the minimum uncertainty in the energy of a Z boson.
An electron in a hydrogen atom failing from an excited state (n=7) to a relaxed state has the same wavelength as an electron moving at a speed of 7281 m/s. Determine the relaxed orbit that this electron relaxed to.