(ii) Sketch graphs that show the wavefunction and the relativeprobabilities of detecting the particle in different regions (of thesame small widths) between the walls.(iii) Explain why the particle is more likely to be detected in a smallregion centred on a position 0.50 × 10-10 m from either wall than ina small region centred on a position 1.00 × 10-10 m from eitherwall. m,A particle of mass 2.00 × 10-10 kg is confined in a hollow cubicalthree-dimensional box, each edge of which has a length, 2.00 × 10-10and for which the potential energy function is zero inside, and infiniteoutside, the box. The total energy of the particle is 2.47 × 10-37 J. Find

Answered: Image /qna-images/answer/af3c2fa6-4bce-431a-a9ea-a78f68581005.jpg

Answered: (ii) Sketch graphs that show the…

Principles of Physics: A Calculus-Based Text

5th Edition

ISBN:9781133104261

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter6: Energy Of A System

Section: Chapter Questions

Problem 52P

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Check Your Understanding What potential energy U(x) can you substitute in Equation 8.13 that will result in motion with constant velocity of 2 m/s for a particle of mass 1 kg and mechanical energy 1 J?
A mysterious force acts on all particles along a particular line and always points towards a particular point P on the line. The magnitude of the force on a particle increases as the cube of the distance from that point; that is Fr3 , if the distance from P to the position of the particle is r. Let b be the proportionality constant, and write the magnitude of the force as F=br3. Find the potential energy of a particle subjected to this force when the particle is at a distance D from P, assuming the potential energy to be zero when the particle is at P.
Consider a particle moving in the region x > 0 under the influence of the potential where U0 = 1 J and α = 2 m. Plot the potential, find the equilibrium points, and determine whether they are maxima or minima.
Rank the following quantities of energy from largest to the smallest. State if any are equal. (a) the absolute value of the average potential energy of the SunEarth system (b) the average kinetic energy of the Earth in its orbital motion relative to the Sun (c) the absolute value of the total energy of the SunEarth system
A particle of mass 2.0 kg moves under the influence of the force F(x)=(3/x)N. If its speed at x=2.0 m is v=6.0 m/s, what is its speed at x = 7.0 m?
A 1.8kg physics cart is initially traveling 2.8m/s when it collides with an ideal spring (with a spring constant of 710N/m and natural length shown. The final time is defined as when the spring at maximum compression and the cart is about to rebound backwards. Neglect loss. List the energy types at the initial and final time and whether work and loss (due to non- conservative forces) occur as well as the corresponding amounts of energy. 0.335m reference level initial: unit v wwww work? unit loss? unit final: unit wwww reference level How much did the spring's length change during the compression? unit What is the length of the spring at maximum compression? unit What is the spring force at this time? unit
A body with mass 0.40 kg moves in one dimension according to a potential of theform U(x) = A/x3-B/x , where A = 4.0 Jm3 abd B = 3.0 Jm, and we take x > 0. (a) If the speed of the body at x = 4.0m is v = 3.9 ms−1, what is the speed at x = 1.5 m? (b) Explain briefly what type(s) of motion are possible in this potential if the totalenergy E = 3.0 J.
The figure gives the one-dimensional potential energy well for a 2.20 kg particle (the function U(x) has the form bx2 and the vertical axis scale is set by Us = 2.0 J).(a) If the particle passes through the equilibrium position with a velocity of 70.0 cm/s, will it be turned back before it reaches x = 16.0 cm?(b) If yes, at what position, and if no, what is the speed of the particle at x = 16.0 cm? %3D U (J) -20 -10 10 20 х (cт) (a) (b) Number Units
Consider a mass, m, moving under the influence of an effective potential energy b 7.2 U(r) = r where a and b are positive constants and r is the radial distance from the origin. In this case, U(r) is a 1D potential energy. (a) Generate a simple plot the potential energy, U(r) vs r. (b) Next, find the equilibrium distance, ro, for the mass in this potential. Then evaluate minimum potential energy U(r.).
A particle of mass "m" moving in three dimensions under the potential energy function V(x, y, z) = ax + By + y z has speed vo when it passes through the origin. (a) What is the force function at (1,1,1) (b) What will its speed be when it passes through the point (1,1,1)? (c) If the point (1,1,1) is a turning point in the motion (v 0), what is vo? 15
The potential energy U in Joule of a particle of mass is 4kg moving in the x-y plane is givenby the formula U = 6x + 8y + 5. Here x and y are coordinates of the particle in meter.The particle is at (3,5) at t = 0 and v 0 = 0. i and jare the unit vectors across x and y axisrespectively.
(10%) Problem 10: A tennis ball of mass m = 0.078 kg is throwm straight up with an initial speed vo = 15 m/s. Let the gravitational potential energy be zero at the initial height of the tennis ball. Randomized Variables m = 0.078 kg vo = 15 m/s Part (a) What is the maximum height, h in meters, the ball reaches? h = What is the work done by gravity, , in Joules, during the ball's flight to its maximum height?

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