What is Gravitational: Definition and 1000 Discussions

Gravity (from Latin gravitas 'weight'), or gravitation, is a natural phenomenon by which all things with mass or energy—including planets, stars, galaxies, and even light—are attracted to (or gravitate toward) one another. On Earth, gravity gives weight to physical objects, and the Moon's gravity causes the ocean tides. The gravitational attraction of the original gaseous matter present in the Universe caused it to begin coalescing and forming stars and caused the stars to group together into galaxies, so gravity is responsible for many of the large-scale structures in the Universe. Gravity has an infinite range, although its effects become weaker as objects get further away.
Gravity is most accurately described by the general theory of relativity (proposed by Albert Einstein in 1915), which describes gravity not as a force, but as a consequence of masses moving along geodesic lines in a curved spacetime caused by the uneven distribution of mass. The most extreme example of this curvature of spacetime is a black hole, from which nothing—not even light—can escape once past the black hole's event horizon. However, for most applications, gravity is well approximated by Newton's law of universal gravitation, which describes gravity as a force causing any two bodies to be attracted toward each other, with magnitude proportional to the product of their masses and inversely proportional to the square of the distance between them.
Gravity is the weakest of the four fundamental interactions of physics, approximately 1038 times weaker than the strong interaction, 1036 times weaker than the electromagnetic force and 1029 times weaker than the weak interaction. As a consequence, it has no significant influence at the level of subatomic particles. In contrast, it is the dominant interaction at the macroscopic scale, and is the cause of the formation, shape and trajectory (orbit) of astronomical bodies.
Current models of particle physics imply that the earliest instance of gravity in the Universe, possibly in the form of quantum gravity, supergravity or a gravitational singularity, along with ordinary space and time, developed during the Planck epoch (up to 10−43 seconds after the birth of the Universe), possibly from a primeval state, such as a false vacuum, quantum vacuum or virtual particle, in a currently unknown manner. Attempts to develop a theory of gravity consistent with quantum mechanics, a quantum gravity theory, which would allow gravity to be united in a common mathematical framework (a theory of everything) with the other three fundamental interactions of physics, are a current area of research.

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  1. ChrisVer

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    Hey, I just had the chance to extract the gravitational lensing caused by a massive point using Fermat's principle. I was wondering though, is there any other way to do that? Also is the light's time delation induced by the "refraction index" n (Saphiro delay) connected to "gravitational time...
  2. Maged Saeed

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    Homework Statement Please look at the picture. Homework Equations $$F=\frac{GMm}{d^2}$$ The Attempt at a Solution I'm stuck with this problem , because I cannot imagine it properly. If I say that the mass m is in between the two masses , I cannot find d in the choices ,, Any help please!
  3. V

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  4. B

    Do quantum fluctuation particles create gravitational effect?

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  5. W

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  6. H

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  7. B

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  8. J

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  9. C

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  10. bremsstrahlung

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  11. M

    Solving Gravitational Lensing Homework for Hubble Constant

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  12. S

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  13. Ellie

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  14. J

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  15. P

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  16. T

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  17. Zack Davis

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  18. O

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  19. N

    Gravitational potential energy of a retaining wall

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  21. K

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  22. J

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  23. D

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  24. Eric Hentschel

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  25. pyman999

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  26. B

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  27. C

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  29. M

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  30. pyman999

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  31. N

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  32. B

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  33. Ess_Elle

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  34. T

    Gravitational Waves: Measurements & Experiments

    Have "we" (the scientific community) found any proofs of gravitational waves? I read about an experiment including a couple of mirrors very apart from each other and a laser that aimed to somehow measure the possible existence of gravitational waves, but as far as I understood (clearly not much)...
  35. P

    The (non-?) flatness of a uniform gravitational field and the equivalence principle

    Desloge (1989) published the article: ## '##Non-equivalence of a uniformly accelerating reference frame and a frame at rest in a uniform gravitational field## '##. His result, briefly resumed: a uniform gravitational field is not flat, is quite interesting. But the way he proves the result is...
  36. J

    Gravitational Acceleration Question

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  37. C

    What are some recommended beginner's books for studying gravitational waves?

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  38. K

    Gravitational acceleration problem

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  39. L

    Given the Mass & Orbital Period, Find the Gravitational Force

    Homework Statement A large telescope of mass 8410 kg is in a circular orbit around the earth, making one revolution every 927 minutes. What is the magnitude of the gravitational force exerted on the satellite by the earth? M_E = 6.0x10^{24} kg m_s = 8410 kg T_s = 927 min = 55,620 s G =...
  40. Uberhulk

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    Is this established or is it dependent on the size of the black hole? http://www.space.com/22180-neutron-stars.html Neutron stars pack their mass inside a 20-kilometer (12.4 miles) diameter. They are so dense that a single teaspoon would weigh a billion tons — assuming you somehow managed to...
  41. aditya ver.2.0

    Gravitational Redshift: Exploring Frequency and Light Changes in G-Fields

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  42. ShayanJ

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    I thought I know introductory physics well but now I'm confused about simple things! Imagine a pendulum. Its released from rest from a height. We take that height to be the zero level of the gravitational potential. But that means its total energy is zero at the beginning and because of the...
  43. Jonathan Scott

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    As I'm sure I've mentioned before, I've heard people say that stress and pressure terms in the energy tensor act as a gravitational source, but I don't understand how this could be, given that these terms can simply appear or disappear (in a non-stationary situation), unlike energy and momentum...
  44. P

    Is it possible to simulate gravitational waves using python?

    Hello all, Well, I am on my master project named 'General Relativity & Gravitational Waves'. My supervisor asked me if you can simulate gravitational waves by programming it would be a plus. But only programming language I am currently learning is python. Is it possible to simulate some kind of...
  45. C

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  46. V

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    Stumbled upon this problem lately. Maybe someone could help me clarify some subtleties I do not see? 1. Consider the propagation speed ##c## of periodic surface of gravity waves with wavelength ##\lambda## and amplitude ##a## in water of depth ##H##. Let ##\rho_{a}## and ##\rho_{w}## be the...
  47. Ghost117

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  48. J

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  49. E

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    Hello, thanks for reading this. I need help trying to find a way to calculate the time dilation due to gravity, from a satellite 50,000km above the surface of the Earth, traveling 10,000km/h relative to a stationary observer on Earth. A signal is being sent from the satellite to the observer...
  50. N

    Gravitational Field of a Uniform Rod

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