How to use in-sentence of “gravitational”:
+ In physics, gravitational waves are ripples in the curvature of spacetime that travel outward from the source.
+ Sometimes, though, enough gravitational force is involved that the two companions speed away from each other at great speeds, resulting in what is known as “runaway” stars.
+ It is the center of mass acting in a gravitational field.
+ Except for their gravitational pull on one another, they have no effect on each other.
+ Moons massive enough for their surfaces to have gravitational collapsecollapsed into a spheroid are highlighted in bold, while the irregular moons are listed in red, orange and gray background.
+ These are points of gravitational stability.
Example sentences of “gravitational”:
+ They differ in their gravitational effects.
+ It is a dimensionless number, the ratio of gravitational forces to viscous forces.
+ Instead, it is bent along the gravitational field of a galaxy in front of it.
+ Barish “for decisive contributions to the Gravitational-wave observatoryLIGO detector and the observation of gravitational waves”.
+ Sources of detectable gravitational waves include binary star systems composed of white dwarfs, neutron stars, or black holes.
+ Albert Einstein predicted the possibility of gravitational lensing.
+ They differ in their gravitational effects.
+ It is a dimensionless number, the ratio of gravitational forces to viscous forces.
+ A stellar black hole is a type of black hole formed by the gravitational collapse of a star.
+ In contrast, the more massive globular clusters of stars exert a stronger gravitational attraction on their members.
+ They are loosely bound together by mutual gravitational attraction, but they get disrupted by close encounters with other clusters and clouds of gas.
+ As the distance is doubled, the gravitational acceleration decreases by a factor of 4.
More in-sentence examples of “gravitational”:
+ Case #2: the observers may be in positions with different gravitational masses.
+ The energy emitted by a quasar is gravitational energy, created from mass falling onto the accretion disc around the black hole.
+ Einstein’s theory of general relativity predicts that two neutron stars would emit gravitational waves as they orbit a common center of mass, which would carry away orbital energy, and cause the two stars to draw closer together.
+ On every plane of creation, energy manifests itself in all forms of matter, thermal energy, potential energy, gravitational energy etc.
+ Although the cause is currently unknown but some scientists think that it may be because of the gravitational contact with small moons that orbit near them.
+ General relativity predicts that the path of light is bent in a gravitational field; light passing a massive body is deflected towards that body.
+ These advances allowed astronomers to detect exoplanets indirectly by measuring their gravitational influence on the motion of their parent stars.
+ Total potential energy being the sum of all potential energies — those from gravitational fields, electric fields, and magnetic fields.
+ This is because the gravitational field changes across the middle of a body.
+ Scientists believe this is caused by the gravitational force of some of Saturn’s moons.
+ The centrifugal force of the planets going round the Sun balances the gravitational pull of the Sun.
+ Another way gravitational potential energy helps us is by keeping earth and the other planets in orbit in our solar system around the Sun.
+ The ossified tendons strengthened the vertebral column against gravitational stress.
+ The energy used up when moving up the hill is changed into gravitational potential energy.
+ That effect is called gravitational lensing.
+ It is believed that Bennu broke off from another asteroid in the asteroid belt, but the gravitational pull of Saturn dislodged it into the range of Earth.
+ Best known for his solution to EinsteinEinstein’s equations of general relativity, which describes a the gravitational field outside a non-rotating black hole with no magnetic field.
+ In this case, the operator gives a constant multiple of the mass density—when it is applied to a given gravitational potential.
+ For example, one can model a gravitational field by a vector field where a vector indicates the acceleration a mass would experience at each point in space.
+ As the gas collapses, the central clump grows stronger and the gas heats to extreme temperatures by converting gravitational potential energy to thermal energy.
+ As the material moves in, gravitational energy released in that process is transformed into heat and rotational movement.
+ G is the gravitational constant.
+ Most were once spiral or elliptical galaxies but were deformed by gravitational pull.
+ The weight of an object is the measure of the intensity of the force imposed on this object by the local gravitational field.
+ In a pond water has gravitational potential energy because of how high it is above sea level.
+ It is caused by the changing gravitational forces of bodies which go round each other.
+ Their name refers to the long tails produced by tidal action, which is the relative difference between gravitational pulls on the near and far parts of each galaxy.
+ Some famous ones are the speed of light, Planck’s constant, the gravitational constant, and Avogadro’s number.
+ Also, the strength of any gravitational field slows the passage of time for an object “as seen by an observer outside the field”.
+ This is because every particle has positive energy, but it also has gravity, which balances it out with negative gravitational energy.
+ In theory, gravitational waves transport energy as gravitational radiation.
+ He wrote a paper on gravitational redshift published in “Nature” in Feb 2010 Nature 18-Feb-2010.
+ The NSF has funded improvements for LIGO to increase sensitivity, which allowed them to make the first detection of gravitational waves.
+ The formation of black holes may be a major source of gravitational waves, so the search for proof of gravitational waves has become an important scientific pursuit.
+ In the case where the two bodies have the same gravitational force, and that the bodies all have the same mass can be solved exactly.
+ When the object comes back down again, the gravitational potential energy is turned back into kinetic energy.
+ Because no one has been able to detect gravitational waves directly, the impact of Gravitational Wave Astronomy has been very limited.
+ An ideal chain hanging between two supports and acted on by a uniform gravitational force makes the shape of a catenary.
+ He showed that the gravitational potential energy lost by the weight in descending was approximately equal to the thermal energy gained by the water by friction with the paddle.
+ Measurement of the solar gravitational deflection of radio waves using geodetic very-long-baseline interferometry data, 1979–1999.
+ These stars are probably in the process of escaping from its gravitational influence.
+ Binary pulsar timing has indirectly confirmed the existence of gravitational radiation and verified Albert EinsteinEinstein’s general theory of relativity.
+ However, the detection of gravitational waves proves the last prediction of Einstein’s general theory of relativity.
+ The speed of the Earth’s movement creates a centrifugal force which balances the gravitational force between the Sun and the Earth.
+ The Underground line has hump-backed stations which allow trains to store gravitational potential energy as they arrive and to then use this energy as they leave the stations.
+ A gravitational singularity is a term used to describe the center of a black hole where gravity is thought to approach infinity.
+ At those points, the gravitational forces of the two large bodies and forces due to motion all balance up.
+ As a satellite satellite goes round a planet or two stars go round each other, the gravitational forces can change, sometimes hugely.
+ Barish: The detection of gravitational waves using LIGO.
+ It is almost always more useful to think of and use the total gravitational potential energy, GPE, of an object and not use the GPE per kilogram.
+ Case #2: the observers may be in positions with different gravitational masses.
+ The energy emitted by a quasar is gravitational energy, created from mass falling onto the accretion disc around the black hole.
+ Einstein’s theory of general relativity predicts that two neutron stars would emit gravitational waves as they orbit a common center of mass, which would carry away orbital energy, and cause the two stars to draw closer together.