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. E

    A Progress in measurement of gravitational constant?

    I read that in 2014 the gravitational constant was measured by atomic intereferometry. Now I read that they speculate that measurements of G are in correlation with 5,9 years cycle. But, when we can expect new measurements of G? Are they in preparation?
  2. JulienB

    Barbell in gravitational field (Lagrange)

    Homework Statement Hi everybody! Here is a new Lagrange problem I am trying to solve, and I would like to have your opinion about my solution so far! A barbell composed of two masses ##m_1## and ##m_2##, idealised as particles and separated by a distance ##a## from each other, moves in the...
  3. pitbull

    Bachelor's thesis about Gravitational Waves -- Too advanced?

    Hey! I am about to start my Bachelor's thesis about General Relativity. My professor mentioned that my thesis might as well be related to Gravitational Waves. Do you think that it would be appropriate to work on Gravitational Waves for a Bachelor's thesis? Isn't it too advanced? Also, any idea...
  4. e2m2a

    I Gravitational potential energy and rest mass

    Does the rest mass of an object increase when it acquires gravitational potential energy, and if so, is this the reason why Einstein believed that the inertia of a mass increases in the presence of other masses?
  5. KarminValso1724

    B Why do gravitational waves propagate at the speed of light?

    If things such as quantum entanglement and the expansion of space can travel faster than light, then why can't gravitational waves, which are vibrations of spacetime? I thought that only matter cannot move through space faster than light. Also, has it been 100 percent proven that gravity waves...
  6. J

    B Black Hole SHM: Gravitational Force

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  7. S

    Kinetic energy and Gravitational Potential Energy

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  8. P

    B Does Methane Gravitationally Differentiate in Air or Mix with Fluid Dynamics?

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  9. Z

    I Gravitational Constant in GR: How & Why?

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  10. Devin

    I Production of Gravitational Waves Problem: Energy Flux

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  11. A

    Gravitational Potential Energy

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  12. E

    I How does gravity affect time on different planets?

    If a planet has gravity that is 3,000 m/s^2 instead of 9.8 m/s^2, would time passage be significantly different, or what would one second on Earth be compared to one second on that planet?
  13. M

    B Gravitational Collapse: Internal Energy & Potential Energy

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  14. C

    Distance in Electric versus Gravitational potential energy

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  15. C

    Gravitational Force and Fields

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  16. henrco

    Estimate gravitational energy from supernova

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  17. L

    I Gravitational Waves & Black Holes: Exploring the Connection

    This is something I've been curious for some time. I've heard that there is a relation between gravitational waves and black holes. Moreover, this year the quite important paper "Observation of Gravitational Waves from a Binary Black Hole Merger" was published. Now, I'm starting to study...
  18. L

    Other Undergraduate research on gravitational waves

    Currently I'm in the last year of the Physics course and I'm interested in working on some undergraduate research project. At first I was suggested to work with statistical physics, but I believe I would prefer working with General Relativity. From the point of view of background I do have a...
  19. G

    GPE and gravitational force exerted by a ring

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  20. Battlemage!

    B How important is gravitational red/blueshift for stars?

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  21. G

    B Magnitude of gravitational time dilation

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  22. KarminValso1724

    B Gravitational Waves Speed: Can We Observe It?

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  23. A

    Gravitational potential energy

    Suppose the mass of planet is" M" and there is body in its surface whose mass is "m" and the field strength is "g" . If the body is thrown 1800 m then Gravitational Potential energy = mg(1800). My question is why can't we use formula GPE= GMm/x ? This is also the formula for gpe but why...
  24. S

    I Gravitational constant for normalized masses

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  25. R

    Gravitational Potential Energy of a Sphere

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  26. joswitz

    I Gravitational Waves: Questions from Josh on Mass & Space-Time

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  27. Tom MS

    I Gravitational Binding Energy of a Torus

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  28. heartshapedbox

    Gravitational Force of Particles

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  29. C

    A Force Question – Einstein Gravitational Constant

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  30. K

    I Gravitational waves as means for communication

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  31. C

    Gravitational Energy Released from Sphere

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  32. S

    Simple gravitational potential energy

    Homework Statement A 400-N child is in a swing that is attached to a pair of ropes 2.00 m long. Find the gravitational potential energy of the child-Earth system relative to the child’s lowest position when (b) the ropes make a 30.0° angle with the vertical Homework Equations Ug=mgy The...
  33. A

    Graphs of Gravitational Potential and Field Strength

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  34. G

    Elastic gravitational collision

    Hi all. Our lecturer gave us an exercise the other day regarding an elastic gravitational collision between a planet and a satellite where the satellite slingshots using the gravitational field of the planet. The question asks to show that ##v_{f} - v_{i} = 2v_{0}## where ##v_{f}## is the final...
  35. P

    Did Einstein believe in Gravitational waves?

    In 1916 Einstein has published the first paper of gravitational wave bu linearize approximation but It contain an error of his calculation then In 1918 he published a new paper of gravitational wave that has a correction of the his last error and conclude that there are the Gravitational wave...
  36. B

    B What is the gravitational effect an accelarated mass?

    How will be the gravitational effect of an object which is accelerated until reaching 1.5 times of its inertial mass? (According to space and satellites of this object)
  37. M

    Mechanical equilibrium of the system in gravitational field

    Consider a system contained in a very tall adiabatically isolating vessel with rigid walls initially containing a thermally heterogeneous distribution of material, left for a long time under the influence of a steady gravitational field, along its tall dimension, due to an outside body such as...
  38. T

    I Time in gravitational reference frame?

    Hi, so Newton said that gravity was like or equivalent to a force? When I learned about SR we were talking about the passing of time as defined by a photon bouncing between two parallel mirrors. So when we're sitting our two parallel mirrors in a gravitational field, even though I suppose...
  39. J

    Gravitational and normal force

    Homework Statement A 60 kg skier is beginning her descent down a 26 degree slope. The frictional force between the skis and the snow is 4 N a) What is the gravitational force the skier exerts on the slope? b) What is the normal force the slope exerts back on the skier? Homework EquationsThe...
  40. W

    I Dark energy and the gravitational constant

    Many have claimed that if dark energy was not so small then the universe would fly apart and we wouldn't be here. However what if you increased the value of lambda and at the same increased the value of the gravitational constant ( or perhaps the amount of matter or dark matter in the universe)...
  41. heartshapedbox

    What is the gravitational force on the 52[kg] mass

    Homework Statement A particle of mass 52[kg] is at 5.0[m]ˆi a particle of mass 13[kg] is at 12[m]j, and a particle of mass 13[kg] is at −12[m]jˆ. What is the gravitational force on the 52[kg] mass due to the mass at 12[m]jˆ? answer: −1.0 × 10−10[N]ˆı + 2.5 × 10−10[N]jˆHomework Equations...
  42. iamazombie911

    Gravitational Potential Energy

    Homework Statement Two neutron stars are separated by a distance of 4.80 E 10 m. They each have a mass of 3.60 E 30 kg and a radius of 1.30 E 5 m. If they are initially at rest... How fast is each star moving when their separation has decreased to half its initial value? How fast is each star...
  43. U

    Gravitational Potential Energy in orbit

    This pertains to a homework question but I get the concept of PE or U = -GmM/a for an elliptical orbit. I also understand the derivation of the total energy of an object in an elliptical orbit as E = -GmM/2a. However, I have a homework question that asks for the ratio of an object's kinetic...
  44. Z

    Gravitational Force/Earth Rotation Question

    The force of gravity is what makes things on the Earth rotate with it, instead of flying off. Doesn't this mean, however, that if you were to apply an upward force on something exactly equal in magnitude to the gravitational force on the object (so the net force on it is 0), it would cease to...
  45. T

    B Gravitational Waves @ relativistic speed?

    What would happen if I were to fly toward a gravitational wave pulse at relativistic speed? Would I be destroyed by the Doppler-shifted pulse? Would the wave become visible?
  46. mmusiak

    B What is the amplitude of a gravitational wave at the source?

    In the most recent postings on LIGO, it is stated that the amplitude of the signal is less than the diameter of a proton after the propagation of the wave over billions of light years. I am assuming that the wave amplitude will decay as 1/r^2, but perhaps that is an incorrect assumption. So is...
  47. kos

    I Velocity, Gravitational Pull & Creator's Movement: Relation?

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  48. ccarit3007

    What is the work done on a comet orbiting a star?

    If a comet is orbiting a star is there any work done? I understand that work is force * displacement, but the force must be in the direction of motion. In the case of a comet and star the star exerts a gravitational force on the comet, but this force is not in the direction of the motion of the...
  49. K

    I Gravitational Waves: Time, Synchronization, Speed

    Hi folks. I see there is a similar thread on grav waves and time, but I have a few specific questions. Everyone talks about grav waves "in space" -- even Brian Greene was saying this on Colbert, whereas Colbert was saying spacetime. I would like to make a video on how GWs are indeed "waves in...
  50. R

    I Do gravitational waves transmit energy in all cases?

    I was told that there are two kinds gravitational waves. One dies out as 1/r, another one dies out as 1/r^2. The former is what LIGO detected, the latter is not. While I trust the professional qualification of the person very much, as a non-physics professional, I would like to a second person...
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