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Consider an initial...
zone 1 Consider the following piecewise continuous, finite potential energy: ro; x < -a V(x)={-U, ;...
zone 1 Consider the following piecewise continuous, finite potential energy: ro; x < -a V(x)={-U, ; -a sxs a zone II U, > 0 (+ve) 10 ; x> a We consider zone III E>0: Unbound or scattering states (a) State the Time independent Schrödinger's Equation (TISE) and the expression of wave number k in each zone for the case of unbound state (b) Determine the expression of wave function u in each zone. (e) Determine the expression of probability Density...
Please help me understand this. I know answers are already out there but please don't simply...
Please help me understand this. I know answers are already out
there but please don't simply copy and paste. i'm looking for
explanations a
23. Consider the following transverse wave and Y(z,t) = 20sm(TI-π). Please calculate the function of the transverse speed. Must show work for credit. onsider the following transverse velocity wave and V(x,t the function of the transverse acceleration. Must show work for credit. 25. A wave propagates in a string. The tension on the sting is 100N...
please solve this question step by step, so i can better understand it 8. Consider the...
please solve this question step by step, so i can better
understand it
8. Consider the two related signals shown in Figure P4.8. Use linearity, time-shifting, and integration properties, along with the transform of a rectangular signal, to find X(w) and Y(w) Figure P4.8
Consider a particle incident from the left on the potential step. Where E = 2 eV...
Consider a particle incident from the left on the potential step. Where E = 2 eV V(x) {5 eV lo x < 0 x > 0 1) Find the wave function of the particle in two regions 2) Find reflection and transmission coefficients R and T
Hello, please help with this problem. Thanks in advance. 3. Consider a step potential shown in...
Hello, please help with this problem. Thanks in
advance.
3. Consider a step potential shown in Figure B. Which of the following statement is correct for a particle with E<0. (a) The form of the wave function to the left is elk, where k2 = 2mE/h?. (b) The form of the wave function to the left is eiex where g?=2m(V.-E)/h. (d) All of the above. (e) None of the above. 4- If the particle energy E was 0<E<V. for the...
please draw a graph to help explain the answer step by step. thanks a lot. 7....
please draw a graph to help explain the answer step by step.
thanks a lot.
7. Consider the bivariate random variable (X,Y) which has joint probability density function 1 f(x,y)(x, y) į, for 0 < x,y<1, for – 1 < x, y = 0, 0, elsewhere. 1 2' (a) Derive the marginal probability density functions for X and Y. (b) Evaluate the following probabilities: (i) P(X>0,Y > 0); (ii) P(X > 1/2, Y < 1/2); (iii) P(X + Y <...
Please show all your work. I need step by step. How did you solve? Please help...
Please show all your work. I need step by step. How did
you solve? Please help me both part or both question. Please help
me with all question. Will give you thumbs up.
3. According to government data, 25% of employed women have never been married. If 20 employed women are selected at random, what is the probability that two or fewer of them have never been married? (Note: set up a numerical expression only, but you do not have...
please show step by step so i can understand how u get the answer so i...
please show step by step so i can understand how u get the
answer so i can reciprocate in the future thank you!!
Consider the homogeneous linear system. X' = (1 -%)x Find a general solution of the system. est x=c(")e + c3(11) x = c1 (1) et + c2 (?)e3t x = c1 (e' + c2 (3) e3t ce() et (i)e * = C1 + C2 e-3t
Please help me understand this question, thank you. (1 point) 8. Consider snapshot graphs A and...
Please
help me understand this question, thank you.
(1 point) 8. Consider snapshot graphs A and B, both taken at0 s. d (m) d (m) 0 3 x (m) 3 ox (m) d (m) x (m) 0 3 to the right at 0.75 and wave B is traveling to the left at 0.75. At what time was snapshot graph C taken? include units) Wave A is travelling
Please show all work, step by step, so I can understand what to do. Ten trials...
Please show all work, step by step, so I can understand what to do. Ten trials are conducted in a Bernoulli process in which the probability of success in a given trial is 0.3. If x = the number of successes, determine the following: a. E(x) b. σx c. P(x = 5) d. P(4 ≤ x ≤ 8) e. P(x > 4)
zone 1 Consider the following piecewise continuous, finite potential energy: ro; x < -a V(x)={-U, ; -a sxs a zone II U, > 0 (+ve) 10 ; x> a We consider zone III E>0: Unbound or scattering states (a) State the Time independent Schrödinger's Equation (TISE) and the expression of wave number k in each zone for the case of unbound state (b) Determine the expression of wave function u in each zone. (e) Determine the expression of probability Density...
Please help me understand this. I know answers are already out
there but please don't simply copy and paste. i'm looking for
explanations a
23. Consider the following transverse wave and Y(z,t) = 20sm(TI-π). Please calculate the function of the transverse speed. Must show work for credit. onsider the following transverse velocity wave and V(x,t the function of the transverse acceleration. Must show work for credit. 25. A wave propagates in a string. The tension on the sting is 100N...
please solve this question step by step, so i can better
understand it
8. Consider the two related signals shown in Figure P4.8. Use linearity, time-shifting, and integration properties, along with the transform of a rectangular signal, to find X(w) and Y(w) Figure P4.8
Consider a particle incident from the left on the potential step. Where E = 2 eV V(x) {5 eV lo x < 0 x > 0 1) Find the wave function of the particle in two regions 2) Find reflection and transmission coefficients R and T
Hello, please help with this problem. Thanks in
advance.
3. Consider a step potential shown in Figure B. Which of the following statement is correct for a particle with E<0. (a) The form of the wave function to the left is elk, where k2 = 2mE/h?. (b) The form of the wave function to the left is eiex where g?=2m(V.-E)/h. (d) All of the above. (e) None of the above. 4- If the particle energy E was 0<E<V. for the...
please draw a graph to help explain the answer step by step.
thanks a lot.
7. Consider the bivariate random variable (X,Y) which has joint probability density function 1 f(x,y)(x, y) į, for 0 < x,y<1, for – 1 < x, y = 0, 0, elsewhere. 1 2' (a) Derive the marginal probability density functions for X and Y. (b) Evaluate the following probabilities: (i) P(X>0,Y > 0); (ii) P(X > 1/2, Y < 1/2); (iii) P(X + Y <...
Please show all your work. I need step by step. How did
you solve? Please help me both part or both question. Please help
me with all question. Will give you thumbs up.
3. According to government data, 25% of employed women have never been married. If 20 employed women are selected at random, what is the probability that two or fewer of them have never been married? (Note: set up a numerical expression only, but you do not have...
please show step by step so i can understand how u get the
answer so i can reciprocate in the future thank you!!
Consider the homogeneous linear system. X' = (1 -%)x Find a general solution of the system. est x=c(")e + c3(11) x = c1 (1) et + c2 (?)e3t x = c1 (e' + c2 (3) e3t ce() et (i)e * = C1 + C2 e-3t
Please
help me understand this question, thank you.
(1 point) 8. Consider snapshot graphs A and B, both taken at0 s. d (m) d (m) 0 3 x (m) 3 ox (m) d (m) x (m) 0 3 to the right at 0.75 and wave B is traveling to the left at 0.75. At what time was snapshot graph C taken? include units) Wave A is travelling
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