How is the total angular momentum vector J of a particle related to its linear momentum...

Intro to Quantum Mechanics (Free particle) a). Write the relations between the wave vector and angular...

Intro to Quantum Mechanics (Free particle) a). Write the relations between the wave vector and angular frequency of a free particle and its momentum vector and energy. b) What is the general form in one dimension of the wave function for a free particle of mass m and momentum p? c) Can this wave function ever be entirely real? If so, show how this is possible. If not, explain why not. d) What can you say about the integral of...

A barbell spins around a pivot at its center at A. The barbell consists of two...

A barbell spins around a pivot at its center at A. The barbell consists of two small balls, each with mass 450 grams (0.45 kg), at the ends of a very low mass rod of length d = 50 cm (0.5 m; the radius of rotation is 0.25 m). The barbell spins clockwise with angular speed 120 radians/s. We can calculate the angular momentum and kinetic energy of this object in two different ways, by treating the object as two...

Just as light waves have particle behavior, a moving particle has a wave nature. The faster...

Just as light waves have particle behavior, a moving particle has a wave nature. The faster the particle is moving, the higher its kinetic energy and the shorter its wavelength. The wavelength, λ, of a particle of mass m, and moving at velocity v, is given by the de Broglie relation λ=hmv where h=6.626×10−34 J⋅s is Planck's constant. This formula applies to all objects, regardless of size, but the de Broglie wavelength of macro objects is miniscule compared to their...

A playground ride consists of a disk of mass M = 59 kg and radius R...

A playground ride consists of a disk of mass M = 59 kg and radius R = 1.9 m mounted on a low-friction axle. A child of mass m = 18 kg runs at speed v = 2.2 m/s on a line tangential to the disk and jumps onto the outer edge of the disk. (b) Relative to the axle, what was the magnitude of the angular momentum of the child before the collision? L|C| =    (c) Relative to the...

A skateboarder with his board can be modeled as a particle of mass 79.0 kg, located...

A skateboarder with his board can be modeled as a particle of mass 79.0 kg, located at his center of mass, 0.500 m above the ground. As shown below, the skateboarder starts from rest in a crouching position at one lip of a half-pipe (point circled A). The half-pipe forms one half of a cylinder of radius 6.20 m with its axis horizontal. On his descent, the skateboarder moves without friction and maintains his crouch so that his center of...

In Bohr's model for the Hydrogen atom, the electron when it is at the third level...

In Bohr's model for the Hydrogen atom, the electron when it is at the third level rotates in a circular orbit around the proton, at a radius of 4.7 x 10^-10 m. The proton has a positive electric charge of 1.6 x10^-19 C, while the electron has the same charge with an opposite sign. The electrical force between the two particles is responsible for the centripetal force that keeps the electron in its orbit. The mass of the proton is...

Hi guys, could you tell me what else can I add to this Discussion Post? It's...

Hi guys, could you tell me what else can I add to this Discussion Post? It's not mine, I'm just replying!! --- Fixed costs are costs that remain the same in total regardless of changes in the activity level. Examples would include property taxes, insurance, rent, deprecation, etc. Because the total fixed costs remain constant as activity changes, it follows that fixed costs per unit vary inversely with activity so as volume increases, unit costs decline and vice versa (Kimmel...

Q1.Centripetal force is v^2/r. It is supplied by: a. the rotation b. some physical force, or...

Q1.Centripetal force is v^2/r. It is supplied by: a. the rotation b. some physical force, or else the object will move in a straight line c. it is the only force if the object is moving through a gravitational field d. none is needed if its speed is below a prescribed limit Q2. The distance of an object from planet M is D. the gravitatiolnal force on the object is F. If the distance is decreased by 1/4, what is...

2 Equipartition The laws of statistical mechanics lead to a surprising, simple, and useful result —...

2 Equipartition The laws of statistical mechanics lead to a surprising, simple, and useful result — the Equipartition Theorem. In thermal equilibrium, the average energy of every degree of freedom is the same: hEi = 1 /2 kBT. A degree of freedom is a way in which the system can move or store energy. (In this expression and what follows, h· · ·i means the average of the quantity in brackets.) One consequence of this is the physicists’ form of...

In this question, you will carry out the algebraic equivalent to the diagrammatic analysis investigating the...

In this question, you will carry out the algebraic equivalent to the diagrammatic analysis investigating the effect of amenities on incomes and real-estate prices. To start, let the consumer utility function be given by q1/2c1/2a1/2, where c  is consumption of “ bread ” (a catch-all commodity), q is real estate (housing), and a is amenities, which are valued by the consumer given that a’s exponent is positive. Letting y denote income, it can be shown that the consumer demand functions for...