1. List of topics covered in classical mechanics?
  2. Ball swung in a horizontal circle, can the string ever by exactly horizontal to the ground?
  3. classical physics and photoelectric effect

  4. About the work of the friction force

  5. Why is there sound when things collide?
  6. Physical principle behind the suction of a piston

  7. Linear oscillation problem finding the equation of motion
  8. Motion of ionospheric electrons due to electric field component of radio waves

  9. Hamiltonian and Lagrangian classical mechanics

  10. Deflection and maximum stress of two beams parallel under each other

  11. Lagrangian exercise from Goldstein
  12. How to calculate the time period of a cylinder connected to a spring

  13. Lagrangian and negative mass

  14. Statics: What it means if a rope snaps
  15. Frames of reference and inhomogeneity and anisotropy of space
  16. Analyzing the motion of a ball rolling without slipping inside a hemispherical bowl

  17. Adding gauge fixing directly by hand is different from by Lagrange multiplier?

  18. Difference between static friction and kinetic friction

  19. Spherical phase space dynamics
  20. How does this system accelerate?

  21. Finding density in tank as air escapes
  22. In this problem is the Moment of Inertia of the neutron star changing with time?

  23. Lagrange equation for impulsive forces

  24. A good example of a nonlinear symplectomorphism?
  25. Bernoulli's Principle and Water Hoses

  26. Normal Forces and Ferris Wheels

  27. Is it possible to approximate the motion under a V-shaped potential as harmonic motion?
  28. Damped harmonic oscillator Lagrangian $f(t)(\ddot{x}+\alpha\dot{x}+\omega^2x)=0$ determinate a function $f(t)>0$
  29. Relationship between zero modes and symmetry in a simple system of coupled springs

  30. Conditions for periodic motions in classical mechanics

  31. More on the closed-form for a simple pendulum

  32. Two first integrals of an hamiltonian field $X_{H}$ are independent $\det \left[ \frac{\partial F_{i}}{\partial p_{k}} \right] \neq 0$

  33. optimum acceleration of fragile or non-rigid bodies under drag forces?
  34. Time taken by a air bubble on the sea depth to reach sea level

  35. Work done in moving over a height
  36. Is it possible to determine the outcome of any impact knowing only the ratio of masses?
  37. Combining rotations for orbital and rotational motion of a planet

  38. Lagrangian mechanics - constraint forces & virtual work

  39. Inertia Tensor Simulation

  40. Acceleration as the second derivative of $e^{-\frac{1}{t^2}}$

  41. Potential Energy is defined only in conservative fields?
  42. How can a Lagrangian containing no potential energy be used to describe motion of a pendulum?
  43. A spool in Einstein's theory of special relativity

  44. Degrees of freedom in a 2D double pendulum

  45. Give a function for the position of an object attached to a spring over time
  46. Does this massless spring affect the system?

  47. Why does water gulp out of a water bottle with a narrow opening instead of a steady flow?

  48. Rolling without slipping effect on velocity of Centre of Mass

  49. Sign of the action for the harmonic osccilator?

  50. Velocity in generalized coordinates

  51. Acceleration in plane polar coordinates
  52. the effect of frequency and amplitude on the speed of sound

  53. How can I interpret or mathematically formalize Maxwellian, Leibnizian, and Machian space-times?

  54. Why displacement and force vectors in a truss structure obey different composition rules?

  55. The Hamilton's equations of a charged particle in electromagnetic field

  56. Stress Tensor Sign Convention

  57. Eigenfrequency of a beam?

  58. Frictional forces and the virial theorem
  59. Coriolis problem by conservation of angular momentum

  60. Question concerning Anand Viscoplastic model
  61. When is the action identically zero on-shell, and what does that mean?
  62. Why are six real numbers, $\vec E$ and $\vec B$, needed to paramaterize the electromagnetic force, even though force needs only three?

  63. Deterministic non-harmonic motion of a single spring

  64. Express $\tan{\theta}$ in terms of $\alpha$ and $\mu_s$
  65. How are the equations for the final velocities of objects derived here?
  66. Exact differential equations and holonomic constraints

  67. Sum of forces with same expression
  68. Explanation of force amplification inside a solenoid

  69. Symmetry transformation
  70. Is a quantum system mandatory for generating true random sequence?
  71. Gauge formalism in rigid body mechanics
  72. When/why does the principle of least action plus boundary conditions not uniquely specify a path?

  73. Newton's Laws of motion: Stacked blocks
  74. Radial motions moment of inertia

  75. Ballistic motion of an object in central force in polar coordinates
  76. How does friction increase energy of a system?

  77. Energy needed to accelerate puck and change direction
  78. Deformation of a rubber ball between planes

  79. Curiosity Over Center of Mass equation
  80. Trying to solve 2D Toda Lattice Equation with Lax Pair Approach

  81. Tension at different points of a string during vertical circular motion

  82. What is the classical equation of motion of spinning magnetic dipole in a magnetic field?

  83. A question about preventing the fall of an object

  84. Two dimensional ball motion on a plane

  85. Arbitrarily weakly forced oscillations

  86. Horsepower achieved with multiple motors

  87. Seek for geometric explanation of Coriolis Force, and an example on a turntable

  88. Is a pendulum in dynamic equilibrium?
  89. Are these the correct Euler-Lagrange equations for a non holonomic disk?

  90. Center of mass and a grand jeté

  91. Deriving the action and the Lagrangian for a free massive point particle in Special Relativity
  92. What are the frameworks of physics?

  93. Spinning bicycle wheel and angular momentuem

  94. When can one omit a total time derivative in the lagrangian formulation?

  95. Shouldn't the frequency of a tuning fork depend on its shear modulus?
  96. Derivation of Lagrange Equations from Newton's Second Law for a Non-holonomic System of Particles
  97. Why moving plunger in cylindrical tube can be considered as plain stress condition?

  98. Projectile motion question : time at which velocity v becomes perpendicular to initial velocity u?

  99. What is an orthogonal point transformation?

  100. Is a motor HP torque directly proportional to the increasing HP among identical motors?