Show how to get Hamiltonian (answer highlighted in pictures Consider a small, point-like particle of mass m thatslides under the influence of gravity, without frictioninside of a hemispherical bowl, of radius R as pic-tured. Use the polar and the azimuthal angles 0 andas generalised coordinates to describe the location ofthe particle.(a) Using the two spherical angles 0 and 4 construct theLagrangian.(b) Determine the generalized momenta poand·P4-Side viewӨR(c) Construct the Hamiltonian.Top view The Lagrangian in generalized coordinates14, ·L(0, +, i, )=gm R cos(0) + − m R (sin(0) + ở-2(b) The generalized momenta arePe=0m R²P₁ = m R² sin² (0)(c) The Hamiltonian iscsc² (0) p² + pH(0, 4, Pe, P)- gm R cos(0)2m R²

Answered: Image /qna-images/answer/33b8231a-3be5-4ca6-bd06-ae5590e15711.jpg

The Lagrangian in generalized coordinates 1 2 L(0, 4, 8, 4) = gm R cos(0) + − m R² (¿² sin² (0) + Ö²) - 2 (b) The generalized momenta are Pe=0m R² P₁ = m R² 4 sin²(0) (c) The Hamiltonian is CSC csc² (0) p² + P² H(0, 4, Po, P4)= - gm R cos(0) 2m R²

The Lagrangian in generalized coordinates 1 2 L(0, 4, 8, 4) = gm R cos(0) + − m R² (¿² sin² (0) + Ö²) - 2 (b) The generalized momenta are Pe=0m R² P₁ = m R² 4 sin²(0) (c) The Hamiltonian is CSC csc² (0) p² + P² H(0, 4, Po, P4)= - gm R cos(0) 2m R²

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Question

Show how to get Hamiltonian (answer highlighted in pictures

Consider a small, point-like particle of mass m that
slides under the influence of gravity, without friction
inside of a hemispherical bowl, of radius R as pic-
tured. Use the polar and the azimuthal angles 0 and
as generalised coordinates to describe the location of
the particle.
(a) Using the two spherical angles 0 and 4 construct the
Lagrangian.
(b) Determine the generalized momenta po
and
·P4-
Side view
Ө
R
(c) Construct the Hamiltonian.
Top view

The Lagrangian in generalized coordinates
1
4, ·
L(0, +, i, )=gm R cos(0) + − m R (sin(0) + ở
-
2
(b) The generalized momenta are
Pe=0m R²
P₁ = m R² sin² (0)
(c) The Hamiltonian is
csc² (0) p² + p
H(0, 4, Pe, P)
- gm R cos(0)
2m R²

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