What is Falling: Definition and 1000 Discussions

In Newtonian physics, free fall is any motion of a body where gravity is the only force acting upon it. In the context of general relativity, where gravitation is reduced to a space-time curvature, a body in free fall has no force acting on it.
An object in the technical sense of the term "free fall" may not necessarily be falling down in the usual sense of the term. An object moving upwards might not normally be considered to be falling, but if it is subject to only the force of gravity, it is said to be in free fall. The Moon is thus in free fall around the Earth, though its orbital speed keeps it in very far orbit from the Earth's surface.
In a roughly uniform gravitational field, in the absence of any other forces, gravitation acts on each part of the body roughly equally. When there is no normal force exerted between a body (e.g. an astronaut in orbit) and its surrounding objects, it will result in the sensation of weightlessness, a condition that also occurs when the gravitational field is weak (such as when far away from any source of gravity).
The term "free fall" is often used more loosely than in the strict sense defined above. Thus, falling through an atmosphere without a deployed parachute, or lifting device, is also often referred to as free fall. The aerodynamic drag forces in such situations prevent them from producing full weightlessness, and thus a skydiver's "free fall" after reaching terminal velocity produces the sensation of the body's weight being supported on a cushion of air.

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  1. Y

    Reversal of proper time for a falling object

    Consider the Schwarzschild line element for radial motion only: c^2 d\tau^2 = \left(1-\frac{2GM}{rc^2}\right) c^2 dt^2 - \frac{dr^2}{ \left(1-\frac{2GM}{rc^2}\right)} Solve for d\tau^2/dt^2: \frac{d\tau^2}{dt^2} = \left(1-\frac{2GM}{rc^2}\right) - \frac{dr^2/dt^2}{...
  2. I

    Calculating Distance From a Falling Stone

    Ok, so I watched a horror movie recently and they did the whole drop a rock down a cavern and see how long it took to hit the bottom. Couldn't you find the approximate distance through this? Not just a guess like "Oh that took a little bit so it's waaaay down there". If two objects...
  3. H

    Locus of light falling on a plane surface

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  4. M

    Calculating Falling Object's Time to Reach Ground

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  5. V

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  6. K

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  7. I

    MHB Probability of Consecutive Data Points Rising and Falling in a Saw-tooth Pattern

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  8. D

    Is the mass of a black hole diminishing for a free falling observer ?

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  9. T

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  10. S

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  11. S

    How Fast Does the Tip and Center of Mass of a Falling Rod Travel?

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  12. G

    'speed' of sound vs. 'feel' of sound? (e.g. subwoofer, tree falling, etc.)

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  13. T

    Elevator falling on spring question

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  14. Y

    Best way to capture the energy of a falling object

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  15. M

    How to measure and calculate drift of falling object in air

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  16. S

    Velocity of falling object from different heights using DE

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  17. F

    Observing someone falling into a Black Hole.

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  18. T

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  19. A

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  20. A

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  21. C

    Help needed, converting weight to a falling force.

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  22. tom.stoer

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  23. T

    Acceleration of a car pulled by a block falling (pulley)

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  24. P

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  25. I

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  26. S

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  27. P

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  28. R

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  29. S

    Why do objects thrown from a cliff hit the ground at the same speed?

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  30. phosgene

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  31. V

    Can You Jump in a Free Falling Elevator?

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  32. S

    Metal balls falling from space

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  33. X

    Total Angular Momentum of 2 connected falling bodies.

    I have two 2 rigid bodies with masses m1 and m2 and Moments of Inertia I1 and I2, they are connected by a free rotational joint at some point, their coms lie at c1 and c2. There's gravity. In the beginning both have some angular velocity \omega_i Questions: - Total angular momentum of the...
  34. A

    Rotational Kinematics: Falling Rod

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  35. B

    Velocity of falling object through fluid flowing upward

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  36. R

    Falling Square Loop: Which Orientation Falls Faster?

    Homework Statement this comes from griffiths 7.46/11 A square wire loop is placed so that its top portion is in a uniform magnetic field. It is then allowed to fall under gravity. We then repeat this experiment but instead rotate the loop 45° so that it is a diamond. Which orientation...
  37. M

    Solving the Falling Pencil: How Small is the Degree Difference?

    hi, i've got a little complicated question, let's see if i can formulate it in an understandable way. imagine there's an (ideal) pencil, standing on its (ideal) tip. if it would stand at 90degree to the (ideal) table, it would never fall. now the question is, if it doesn't stand at...
  38. I

    Black Hole Falling in / Observer Perspective Question

    These damn shows on the Science Channel seem to raise more questions for me than they answer, and maybe I'm understanding this wrong but here we go... If I were an unfortunate soul who fell into a black hole, the show claims that I will not feel a thing as I pass through the event horizon...
  39. B

    Free falling object and tension on rope

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  40. F

    Black Holes: Falling in and Looking out?

    I think we're all familliar with the old "What if you fell into a black hole?" Event horizons, time dilation (I think is the right term), and spagettification. There is however one thing these thought experiments never seem to cover that I'm really curious about. As I understand this...
  41. V

    Why does the heavier spade have a lower acceleration in soil?

    "2 spades of the same type are dropped form the same height into the same patch of soil. why does the heavier spade have a lower acceleration in the soil than the lighter spade?"
  42. M

    Falling into a Volcano: Fact or Fiction? The Truth Behind the Myth

    Recently, there has been an argument of whether or not you would sink if you were unlucky enough to fall into a volcano. The proponents of this argument focus their attention on the water/magma density difference. Since the human body consists of 60-70% water, and water is less dense than...
  43. S

    Acceleration of falling mass and tension in the cord

    Homework Statement A 25 kg wheel has a radius of 40cm and turns freely on a horizontal axis. The radius of gyration is 30cm. A 1.2 kg mass hangs at the end of a cord that is wound around the rim of the wheel. This mass falls and causes the wheel to rotate. Find the acceleration of the...
  44. N

    Force vector on falling object to determine terminal velocity and to graph it

    Homework Statement k: constant v: velocity m: mass g: gravity Homework Equations Vt= √(2mg/CρA) F=ma The Attempt at a Solution part a. part b. I do not know if i am doing this right and i do not understand how to do part c. If you know how to do this please explain
  45. W

    Exploring the Acceleration of Two Falling Objects

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  46. T

    Particle Falling to Earth: Solving w/ MultiV Calc

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  47. K

    Falling Yo-Yo (angular momentum/energy, torque)

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  48. S

    Explaining the Vertical Component of Drag Force in Falling Objects

    If you have a falling object and wind in the horizontal direction, the object ends up falling to the ground at an angle. Why does the drag force only have a vertical component? Thanks!
  49. H

    Mechanics Falling Chain Problem

    Homework Statement A chain of length L and mass density σ kg/m is held in a heap. I grab an end of the chain that protrudes a bit out of the top. The heap is then released so that the chain can unravel with time. Assuming that the chain has no friction with itself, so that the remaining part...
  50. B

    How Do Two Colliding Rods Behave in Angular Motion?

    Homework Statement Two rigid bars of equal length, masses m1 and m2, and inertias I1 and I2 are initially upright and separated by a distance d. The rods can be assumed to be pinned to the ground such that they are free to have angular rotation. The bar on the right (2) is given an...
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