Show that the radius of the sphere that can just fit into the interstitial void of...

Compute the radius r of an impurity atom that will just fit into the body-center hole...

Compute the radius r of an impurity atom that will just fit into the body-center hole of a simple cubic (SC) lattice in terms of the atomic radius R of the host atom (without introducing lattice strains). (b) Perform the same derivation for an FCC tetrahedral interstitial hole.

Show that r(t) = (3cost, 5sint, 4cost) lies on a sphere with radius 5 and calculate...

Show that r(t) = (3cost, 5sint, 4cost) lies on a sphere with radius 5 and calculate the velocity and speed of the moving object.

A solid non-conducting sphere of radius R has a nonuniform charge    distribution of volume charge...

A solid non-conducting sphere of radius R has a nonuniform charge    distribution of volume charge density ρ = rρs/R, where ρs is a constant and    r is the distance from the centre of the sphere.    Show that:    (a) the total charge on the sphere is Q = π ρsR3 and    (b) the magnitude of the electric field inside the sphere is given by the    equation        E = (Q r2 / 4π ε0R4)

A sphere (mass 4.5 kg) is held above the planet Klaatu (mass 3.71x10^24 kg, radius 7.71x10^7...

A sphere (mass 4.5 kg) is held above the planet Klaatu (mass 3.71x10^24 kg, radius 7.71x10^7 m). Initially the sphere is distance 2.87R above the surface of Klaatu, where R is the radius of Klaatu. If the sphere is released from rest and there is no friction anywhere, find v, the speed of the sphere just as it strikes the surface of the planet Klaatu, in m/s.

Q2a) Show that the potential at the surface of a uniformly charged sphere of radius R...

Q2a) Show that the potential at the surface of a uniformly charged sphere of radius R is V=Kq/R where K = 1/4πɛ₀ and the zero of potential is at infinity). Hence derive an expression for the potential energy of the sphere. (Hint, assemble the sphere from the charges at infinity) b) A parallel plate capacitor has conducting plates, each of area A, situated at y=0 and y=d. two parallel dielectric sheets occupy the space between the plates. Dielectric of relative...

A sphere of radius R carries a polarization , where is a constant. (note that there...

A sphere of radius R carries a polarization , where is a constant. (note that there is no free charge) What is the surface bound charge and the volume bound charge . Find the electric field inside and outside the sphere. (Hint: you can use the result of Q1 to calculate the electric field inside the sphere, that the total charge due to polarization vanishes. Outside the sphere, calculate the enclosed charge from the volume bound charge)

Assume the earth is a uniform sphere of mass M and radius R. As strange as...

Assume the earth is a uniform sphere of mass M and radius R. As strange as it may sound, if one can dig a long tunnel from one side of the Earth straight through the center and exit the other end, any object falling into the tunnel will appear at the other end (i.e. the opposite side of the Earth) in just 2530 s (42.2 min). Call that time t. Let t be a function of G, M, and R,...

Assume a planet is a uniform sphere of radius R that (somehow) has a narrow radial...

Assume a planet is a uniform sphere of radius R that (somehow) has a narrow radial tunnel through its center. Also assume we can position an apple anywhere along the tunnel or outside the sphere. Let FR be the magnitude of the gravitational force on the apple when it is located at the planet's surface. How far from the surface (what multiple of R) is there a point where the magnitude of the gravitational force on the apple is 0.7...

3. [10 pts] Calculate the radius of the sphere that encloses 92% of the ground state...

3. [10 pts] Calculate the radius of the sphere that encloses 92% of the ground state of the hydrogen atom. Express your answer in Ångstroms and you must explicitly integrate over r, ϕ and θ. HINT: This problem cannot be solved analytically, and there will be a point where the solution must be found numerically. Tabulate your trial and error numerical solution. You can use a spreadsheet program like Excel to solve for the radii within one decimal place by...

Assume a planet (Earth for example) is an uniform sphere of radius R and it has...

Assume a planet (Earth for example) is an uniform sphere of radius R and it has a narrow radial tunnel through its center. Assume that we can position an object anywhere along this tunnel or outside the planet (again Earth as an example). Let Fr equal magnitude of the gravitational force on the object that is traveling through the center of the planet. When the object is found at the planet’s surface, how far from the surface is there a...