consider a torus whose equation in terms of spherical coordinates(r,\theta,\phi) is r=2sin\phi for 0\le\phi\le2\Pi. determine the mass of the region bounded by the torus if the density is given by \rho=\phi.
Homework Statement
-here is the problem statement
-here is a bit of their answer
Homework Equations
Chain rule, partial derivative in spherical coord.
The Attempt at a Solution
I tried dragging out the constant and partial derivate with respect to t but still I can't reach their df/dt and...
Homework Statement
[/B]
(a) Verify explicitly the invariance of the volume element ##d\omega## of the phase space of a single particle under transformation from the Cartesian coordinates ##(x, y, z, p_x , p_y , p_z)## to the spherical polar coordinates ##(r, θ, φ, p_r , p_θ , p_φ )##.
(b) The...
Homework Statement
Describe using spherical coordinates the solid E in the first octant that lies above the half-cone z=√(x2+y2) but inside x2+y2+z2=1. Your final answer must be written in set-builder notation.
Homework Equations
ρ = x2+y2+z2
x = ρsinφcosθ
y = ρsinφsinθ
z = ρcosφ
The Attempt...
I'd like to expand a 3D scalar function I'm working with, ##f(r,\theta,\phi)##, in an orthogonal spherical 3D basis set. For the angular component I intend to use spherical harmonics, but what should I do for the radial direction?
Close to zero, ##f(r)\propto r##, and above a fuzzy threshold...
Homework Statement
To integrate a function (the function itself is not important) over the region Q. Q is bounded by the sphere x²+y²+z²=2 (ρ=sqrt2) and the cylinder x²+y²=1 (ρ=cscφ).
To avoid any confusion, for the coordinates (ρ,φ,θ), θ is essentially the same θ from polar coordinates in 2...
So I'm reading the Schaum's outlines while trying to prepare for a big test I have in September. And I'm trying to understand something here that maybe someone can offer some clarification and guidance.
So, using Coulomb's Law, we can find the electric field as follows:
\begin{equation}
dE...
Say I have {S_{x}=\frac{1}{\sqrt{2}}\left(\begin{array}{ccc}
0 & 1 & 0\\
1 & 0 & 1\\
0 & 1 & 0\\
\end{array}\right)}
Right now, this spin operator is in the Cartesian basis. I want to transform it into the spherical basis. Since, {\vec{S}} acts like a vector I think that I only need to...
First, I'd like to say I apologize if my formatting is off! I am trying to figure out how to do all of this on here, so please bear with me!
So I was watching this video on spherical coordinates via a rotation matrix:
and in the end, he gets:
x = \rho * sin(\theta) * sin(\phi)
y = \rho*...
Homework Statement
Use spherical coordinates to find the volume of the solid enclosed between the spheres $$x^2+y^2+z^2=4$$ and $$x^2+y^2+z^2=4z$$
Homework Equations
$$z=\rho cos\phi$$ $$\rho^2=x^2+y^2+z^2$$ $$dxdydz = \rho^2sin\phi d\rho d\phi d\theta$$
The Attempt at a Solution
The first...
Homework Statement
A sphere has a diameter of ##D = 2\rho = 4cm##. A cylindrical hole with a diameter of ##d = 2R = 2 cm## is bored through the center of the sphere. Calculate the volume of the remaining solid. (Spherical or cylindrical coordinates?)
hint: Place the shape into a convenient...
Hi,
I have to resample images taken from camera, whose target is a spherical object, onto a regular grid of 2 spherical coordinates: the polar and azimutal angles (θ, Φ). For best accuracy, I need to be aware of, and visualise, the "footprints" of the small angle differences onto the original...
Homework Statement
The problem asks for a single triple integral (the integrand may be a sum but there must be a single definition for the bounds of the integral) representing the volume (in the first octant) of the shell defined by a sphere of radius 2 centered around the origin and a sphere...
Homework Statement
transform the following vectors to spherical coordinates at the points given
10ax at P (x = -3 , y = 2, z=4)
Homework Equations
x y z can be chage into x = rsinθcosφ , y=rsinθsinφ , z=cosθ
The Attempt at a Solution
ax vector can be expressed ar,aθ,aφ so, I can change x ...
The problem is
<< transform the following vectors to spherical coordinates at the points given
10ax at P (x = -3 , y = 2, z=4)>>
Actually, My first language isn't English, please understand that.
x y z can be chage into x = rsinθcosφ , y=rsinθsinφ , z=cosθ
ax vector can be expressed...
Hello everybody,
My question is about variable separation applied in the solution of general time-independent Schrodinger equation, expressed with spherical coordinates as:
\hat{H} \psi (r,\theta,\phi) = E \psi (r,\theta,\phi)
Is it always possible (theoretically) to seek a solution such as...
The following integral arises in the calculation of the new density of a non-uniform elastic medium under stress:
∫dx ρ(r,θ)δ(x+u(x)-x')
where ρ is a known mass density and u = ru_r+θu_θ a known vector function of spherical coordinates (r,θ) (no azimuthal dependence). How should the Dirac...
Hello people!
I have ended up to this integral ##\int_{φ=0}^{2π} \int_{θ=0}^π \sin θ \ \cos θ~Y_{00}^*~Y_{00}~dθ \, dφ## while I was solving a problem.
I know that in spherical coordinates when ##\vec r → -\vec r## :
1) The magnitude of ##\vec r## does not change : ##r' → r##
2) The angles...
Iam having trouble understanding how one arrives at the transformation matrix for spherical to rectangular coordinates.
I understand till getting the (x,y,z) from (r,th
ie.,
z = rcos@
y = rsin@sin#
x = rsin@cos#
Note:
@ - theta (vertical angle)
# - phi (horizontal angle)
Please show me how...
I am looking at this derivation of velocity in spherical polar coordinates and I am confused by the definition of r, theta and phi.
http://www.usna.edu/Users/math/rmm/SphericalCoordinates.pdf
I thought phi was the co latitude in the r,θ,∅ system and not the latitude. Of course the two are...
Hello,
I am trying to find the magnetic field that accompanies a time dependent periodic electric field from Faraday's law. The question states that we should 'set to zero' a time dependent component of the magnetic field which is not determined by Faraday's law. I don't understand what is...
I have to evaluate
$$\int^1_{-1} \int^{ \sqrt {1-x^2}}_{ - \sqrt {1-x^2}} \int^1_{-\sqrt{x^2+y^2}}dzdydx$$
using spherical coordinates.
This is what I have come up with
$$\int^1_{0} \int^{ 2\pi}_0 \int^{3\pi/4}_{0}r^2\sin\theta d\phi d\theta dr$$
by a combination of sketching and...
I just wanted to check that I am thinking about the coordinate transition correctly. The relativistic generalization of Euler's equation is (from Landau & Lifshitz vol. 6)
## hu^\nu \frac{\partial u_\mu}{\partial x^\nu} - \frac{\partial P}{\partial x^\mu} + u_\mu u^\nu \frac{\partial...
Homework Statement
The vector field ##\vec B## is given in spherical coordinates
##\vec B(r,\theta,\phi ) = \frac{B_0a}{r\sin \theta}\left( \sin \theta \hat r + \cos \theta \hat \theta + \hat \phi \right)##.
Determine the line integral integral of ##\vec B## along the curve ##C## with the...
Homework Statement
Find the volume of the solid region that lies inside the cone φ= pi/6 and inside the sphere ρ=4. Use rectangular coordinates.
Homework Equations
x=ρ sinφ cos θ
y=ρsinφ sin θ
z=ρ cos φ
ρ^2=x^2+y^2+z^2
x= r cos θ
y= r sin θ
r^2=x^2+y^2The Attempt at a Solution
at first...
Homework Statement
Consider a universe described by the Friedmann-Robertson-Walker metric which describes an open, closed, or
at universe, depending on the value of k:
$$ds^2=a^2(t)[\frac{dr^2}{1-kr^2}+r^2(d\theta^2+sin^2\theta d\phi^2)]$$
This problem will involve only the geometry of space at...
Homework Statement
Find the vector directed from (10,3π/4,π/6) to (5, π/4,π), where the endpoints are given in spherical
coordinates. Ans -9.660ax, - 3ay. + 10.61az
Homework Equations
az=rCosΦ
The Attempt at a Solution
az=10Cos(π/6) +5Cos(π) =13.6
My answer differs. Where did i go wrong?
Homework Statement
Homework Equations
The path integral equation, Stokes Theorem, the curl
The Attempt at a Solution
[/B]
sorry to put it in like this but it seemed easier than typing it all out. I have a couple of questions regarding this problem that I hope can be answered. First...
I have the following integral:
## \oint_{S}^{ } f(\theta,\phi) \hat \phi \; ds ##Where s is a sphere of radius R.so ds = ##R^2 Sin(\theta) d\theta d\phi ##
Where ds is a scalar surface element. If I was working in Cartesian Coordinates I know the unit vector can be pulled out of integral and...
Hi all.
I'm struggling with taking dot products between vectors in spherical coordinates. I just cannot figure out how to take the dot product between two arbitrary spherical-coordinate vectors ##\bf{v_1}## centered in ##(r_1,\theta_1,\phi_1)## and ##\bf{v_2}## centered in...
Homework Statement
Find the mass of the solid bounded from above z = √(25 - x2-y2) and below from z = 4, if its density is δ = k(x^2 + y^2 + z^2)^(-1/2).
Homework Equations
m = ∫∫∫δdV
The Attempt at a Solution
The plane z = 4 is transformed into ρcosφ = 4, that is, ρ = 4secφ. And x^2 +...
My question is really about converting between spherical coordinates and cartesian coordinates.
Suppose that ##\phi## and ##\theta## are defined as follows:
##\phi## is the angle between the position vector of a point and the ##z##-axis. ##\theta## is the angle between the projection of that...
I'm trying to derive what ##ds^2## equals to in spherical coordinates.
In Euclidean space, $$ds^2= dx^2+dy^2+dz^2$$
Where ##x=r \ cos\theta \ sin\phi## , ##y=r \ sin\theta \ sin\phi## , ##z=r \ cos\phi## (I'm using ##\phi## for the polar angle)
For simplicity, let ##cos...
Homework Statement
Evaluate
\int \int \int _R (x^2+y^2+z^2)dV
where R is the cylinder
0\leq x^2+y^2\leq a^2,
0\leq z\leq h
Homework Equations
[/B]
x = Rsin\phi cos\theta
y = Rsin\phi sin\theta
z = Rcos\phiThe Attempt at a Solution
[/B]
2*\int_{0}^{\pi/2}d\phi \int_{0}^{2\pi}d\theta...
Hi,
Set up the triple integral in spherical coordinates to find the volume bounded by z = \sqrt{4-x^2-y^2}, z=\sqrt{1-x^2-y^2}, where x \ge 0 and y \ge 0.
\int_0^{2\pi} \int_0^2 \int_{-\sqrt{4-x^2-y^2}}^{\sqrt{4-x^2-y^2}} r\ dz\ dr\ d\theta
The angular equation:
##\frac{d}{d\theta}(\sin\theta\,\frac{d\Theta}{d\theta})=-l(l+1)\sin\theta\,\Theta##
Right now, ##l## can be any number.
The solutions are Legendre polynomials in the variable ##\cos\theta##:
##\Theta(\theta)=P_l(\cos\theta)##, where ##l## is a non-negative integer...
Homework Statement
An ideal gas satisfying the Maxwell-Boltzmann distribution is leaking from a container of the volume V through a circular hole of area A'. The gas is kept in the container under pressure P and temperature T. The initial number density (concentration) is given by n0=N/V...
Homework Statement
The question asks me to convert the following integral to spherical coordinates and to solve it
Homework EquationsThe Attempt at a Solution
just the notations θ = theta and ∅= phi
dx dy dz = r2 sinθ dr dθ d∅
r2 sinθ being the jacobian
and eventually solving gets me
∫ ∫ ∫...
Homework Statement
An airplane flies from the North Pole to the South Pole, following a winding trajectory. Place the center of the Earth at the origin of your coordinate system, and align the south-to-north axis of the Earth with your z axis. The pilot’s trajectory can then be described as...
Hi
I am looking for an equation of intersection of 3 circles or 3 spheres, on the surface of the fourth (central) sphere, in a spherical coordinate circle. This should really be just a simple trilateration problem.
I know this is usually done by transforming the spherical coordinate system to...
Homework Statement
A vase is filled to the top with water of uniform density f = 1. The side profile of the barrel is given by the surface of revolution obtained by revolving the graph of g(z) = 2 + cos(z) over the z-axis, and bounded by 0 ≤ z ≤ π. Find the mass of the vase.
Homework...
Homework Statement
My textbook states that when ##\theta = c ## where c is the constant angle with respect to the x-axis, the graph is a "half-plane". However, when ##\phi = c ## it is a half-cone. The only difference I see is that ##\phi## is the angle with respect to the z-axis, rather than...
Hey! :o
Using spherical coordinates and the orthonormal system of vectors $\overrightarrow{e}_{\rho}, \overrightarrow{e}_{\theta}, \overrightarrow{e}_{\phi}$
describe each of the $\overrightarrow{e}_{\rho}$, $\overrightarrow{e}_{\theta}$ and $\overrightarrow{e}_{\phi}$ as a function of...
After setting up Laplace's equation in spherical coordinates and separating the variables, it is not clear to me why the constants are put in the form of l(l+1) and why m runs from -l to l. Could anyone please help me ununderstand, or better yet, point me to a source that explains the entire...
Hi, I am going through the derivation of an instanton solution (n=1) in Srednicki Chp. 93.
Specifically, I went through eqn.s 93.29-93.38.
However the sign of the Levi-Civita Symbol is bugging me:
It says that in 4D Euclidean space,
\epsilon^{1234}=+1 in Cartesian coordinates
implies...