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gravitational field of any intensity vs gravitational field of any magnitude

Both phrases are correct and can be used interchangeably. They both refer to the strength or power of a gravitational field. 'Intensity' and 'magnitude' are synonyms in this context.

Last updated: April 01, 2024 • 349 views

gravitational field of any intensity

This phrase is correct and commonly used to refer to the strength or power of a gravitational field.

This phrase is used to describe the level or degree of a gravitational field's strength without specifying a particular value.
  • However, there exist variations in the gravitational field intensity and it seems that General Relativity calls said variations gravitational waves.
  • Actually, the idea I want to expound is that both the propagating waves of the gravitational field intensity and the electromagnetic waves are propagated at the speed of the vibration or resonance of the globine's stationary longitudinal waves.
  • Watch the gravitational field of the highest. Use arrows to move.
  • g = Intensity of the gravitational field
  • Clare: Planets are caught firmly in the gravitational field of the Sun, but comets have a much more tenuous connection.
  • That shows us the relationship of quantitative equivalence between intensity of the gravitational field, speed of light, and the electromagnetic energy generated at a point in the gravitational field.
  • Your brain processes information through the minute gravitational and non-gravitational fields of it's own structure and it is affected directly by fluctuations in the earth's magnetic field.
  • These zodiacs are the most stable due to the born's dynamics governed by the gravitational fields of these bodies.
  • In particular, the relationship that exists between the intensity of the gravitational force or gravitational field and the speed of light or electromagnetic energy.
  • In more intuitive physics, what it is produced is an increase in the intensity of the gravitational field which has the same results as those mentioned in the last paragraphs.
  • In other words, changes in velocity - acceleration - would be equivalent to changes in the intensity of the gravitational field.
  • In of itself, it suggests the inaccuracy of a large part ofEinstein'sTheory of Relativity by implying a variable speed of light due to the longitudinal tension changing with the intensity of the gravitational field.
  • The displacement (2) was first suggested by Prof. Einstein in 1911, his argument being based on the Principle of Equivalence, viz., that a gravitational field is indistinguishable from a spurious field of force produced by an acceleration of the axes of reference.
  • The gravitational field is a result of the elasticity in the longitudinal curvature of the reticular structure of matter and the electromagnetic field of the transversal elasticity of this same structure.
  • Gravity as a total force of attraction over another mass will be the intensity of the gravitational field in one point by the mass:
  • All measurements and units of the International System of Units (SI), also called the International System of Measurements, are affected by the velocity and situation within the gravitational field of each observer.
  • The moon's gravitational field obscured our warp signature.
  • After the first shot, we lost our gravitational field.
  • Have entered the moon's gravitational field.
  • We generate a magnetic field stronger than the gravitational field on Earth.

Alternatives:

  • gravitational field of any magnitude
  • gravitational field of any strength
  • gravitational field of any power
  • gravitational field of any force
  • gravitational field of any level

gravitational field of any magnitude

This phrase is correct and commonly used to refer to the strength or power of a gravitational field.

This phrase is used to describe the level or degree of a gravitational field's strength without specifying a particular value.
  • Watch the gravitational field of the highest. Use arrows to move.
  • Clare: Planets are caught firmly in the gravitational field of the Sun, but comets have a much more tenuous connection.
  • Your brain processes information through the minute gravitational and non-gravitational fields of it's own structure and it is affected directly by fluctuations in the earth's magnetic field.
  • These zodiacs are the most stable due to the born's dynamics governed by the gravitational fields of these bodies.
  • The displacement (2) was first suggested by Prof. Einstein in 1911, his argument being based on the Principle of Equivalence, viz., that a gravitational field is indistinguishable from a spurious field of force produced by an acceleration of the axes of reference.
  • The gravitational field is a result of the elasticity in the longitudinal curvature of the reticular structure of matter and the electromagnetic field of the transversal elasticity of this same structure.
  • In the physical sciences, the weight of an object is the magnitude, W, of the force that must be applied to an object in order to support it (i.e. hold it at rest) in a gravitational field.
  • All measurements and units of the International System of Units (SI), also called the International System of Measurements, are affected by the velocity and situation within the gravitational field of each observer.
  • The moon's gravitational field obscured our warp signature.
  • After the first shot, we lost our gravitational field.
  • Have entered the moon's gravitational field.
  • We generate a magnetic field stronger than the gravitational field on Earth.
  • I'm starting to create my own gravitational field.
  • There seems to be a powerful gravitational field nearby.
  • Aligning with the galactic equator brings us into the dark star's gravitational field.
  • We have entered a massive gravitational field.
  • Assume two observers, both having identical clocks, embedded in an Earth's gravitational field.
  • There's a disruption in the gravitational field - near Miss Carter.
  • Well, the gravitational fields interact with the weak spots between worlds, creating...
  • The gravitational field, you know, was unknown before the year 1604.

Alternatives:

  • gravitational field of any intensity
  • gravitational field of any strength
  • gravitational field of any power
  • gravitational field of any force
  • gravitational field of any level

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