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. T

    I Rod falling through the event horizon of a black hole

    Having discussed recently https://www.physicsforums.com/threads/rod-falling-radially-towards-the-center-of-a-mass.871169/ I'm now puzzled by the question, what happens to the rod during his radial fall through the event horizon and what would the hypothetical observer at ##r=2M## measure...
  2. kubaanglin

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  3. M

    What is the Force Exerted by a Falling Rod on a Hinged Support?

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  4. R

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  5. Olive1923

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  6. T

    A falling stone takes 0.28 s to travel past a window 2.2 m...

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  7. peter010

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  10. H

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  11. K

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  12. Brage Eidsvik

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  13. A

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  14. UnterKo

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  15. V

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  16. Riju

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  17. TheTallJS

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  18. I

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  19. Clara Chung

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  20. H

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  21. J

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  22. J

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  23. DiracPool

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  25. T

    B Rod falling radially towards the center of a mass

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  26. B

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  27. K

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  28. B

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  29. C

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  30. P

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  31. S

    Centrifugal force on Earth and deviation of free falling obj

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  32. S

    Coriolis effect causes in motion of a free falling object

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  33. F

    I Understanding Falling with Horizontal Velocity

    In the book I'm reading, there is a discussion about how a person inside a "box" falling in a gravitation field would see himself as compared to someone on the ground. It is as follows "While the guy is asleep, put him in a spacious box elaborately furnished inside to look exactly like his...
  34. jBase

    B Speed of Objects Falling to Black Hole Center

    I was wondering what is known about the speed of objects falling to the centre of a Black Hole? If a number of identical objects, initially located outside the event horizon, were propelled at varying speeds towards a black hole, would that variability be maintained as they pass through the...
  35. Tom MS

    Falling to a Star With Varying Acceleration

    Take an object of negligible mass that is dropped from rest 2 kilometers away from a neutron star of mass 1.989*10^30 kilograms (1 solar mass) and radius 7,802 meters. How long will it take the object to reach the surface of the neutron star? I'm not terrible at calculus, but I know for a fact...
  36. H

    Coriolis effect deflects falling objects eastwards to westwards?

    According to (4.93), it should be eastwards. But intuitively, shouldn't it be westwards since the Earth is rotating from west to east?
  37. A

    Impact force of falling object

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  38. Cincin

    Difficult integral - Falling mass

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  39. L

    Falling rotating sphere and displacements

    Homework Statement Homework Equations How to locate the point P and C after 0.5s from their initial position ? The Attempt at a Solution Well i don't know whether it would be correct way to start the problem i.e find the centripetal acceleration .
  40. C

    Mirror Falling: How Long Can Person See Their Feet?

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  41. M

    Energy Loss of a ball falling off the lip of a ramp

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  42. P

    Rope falling through a hole on a frictionless table

    Homework Statement A rope with uniform density ##\lambda=\frac{m}{L}## is placed on a frictionless table with an initial length ##y_0## hanging through the hole. Derive a differential equation for the position of the bottom of the rope and then using this solve for the time required for the...
  43. G

    Calculating Angular Velocity for Falling Object Simulation

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  44. G

    Angular velocity of falling box

    Hi, I'm preparing a computer software to simulate the fall of an object for an academic project. The object is rotating (not rolling) over the circular bottom point. I know that the angular velocity at the horizontal point is ω = √(3g/L). I would like to calculate the angular velocity at every...
  45. hackhard

    Why people float inside free falling airplane

    in science shows , an airplane made to fall freely under gravity has its passenger floating in mid air i understand weightlessness is due to 0 normal reaction by floor on person but since both passenger and plane have same aceleration due to gravity what might be reason for relative separation...
  46. A

    Is the Hypothesized Law of Gravity for a Falling Body's Speed Accurate?

    Homework Statement The speed of a falling body might be based on the observation that the velocity of a falling object seems to increase the further it has fallen. Model the hypothesis "The speed of a falling object is proportional to the distance it has fallen" as a differential equation...
  47. P

    Free falling particle near Earth's surface (Diff. Eq.)

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  48. G

    B Falling into a black hole (seen from outside)

    I refer to the time coordinate of an outside observer (ideally hoovering over the BH at large constant distance). Can (s)he actually see something falling into the hole within finite time, that means actually disappearing and making the Event horizon larger? If no, all the merging of black...
  49. A

    A drunk falling into a black hole

    According to the holographic principle, It is proposed that the entire information that is kept in a 3D volume of the black hole can be represented in a 2D surface of its horizon. What if we have a drunk falling into a black hole and moves in a random walk in his inertial frame. According to the...
  50. S

    Acceleration of a Rocket falling to Earth

    I want to drop a rocket-shaped object from a near-space balloon, with the aim of maintaining a downward acceleration that leaves it's contents in microgravity. I think that this means: The (unpowered) rocket needs to maintain as close to 9.8m/s2 acceleration in order to balance out the...
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