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Gravitational Force01:16

Gravitational Force

In the years before Newton, a general belief prevailed that different laws governed objects in the sky than objects on Earth. When Kepler wrote down the three laws of planetary motion, explaining in detail the geometrical properties of the planetary orbits around the Sun, there was no immediate idea to discern their connection with more fundamental laws. It was Isaac Newton who, in 1665–66, figured out the connection between planetary motion, the motion of the moon around the Earth, and the...
Newton's Law of Gravitation01:15

Newton's Law of Gravitation

Our everyday observation tells us that all objects close to the Earth naturally tend to fall to the ground. Early philosophers assumed that this downward force was unique to Earth. By the 16th century, Nicolaus Copernicus (1473-1543) put forward the heliocentric theory, which suggested that Earth and other planets orbited the sun, while the Moon orbited the Earth. However, it was Isaac Newton (1642-1727) who linked these two motions together in the 17th century. He reasoned that the force of...
Newton's Law of Gravitational Attraction01:24

Newton's Law of Gravitational Attraction

Sir Isaac Newton established the universality of the law of gravitational attraction based on empirical evidence and inductive reasoning. He published his work in Philosophiae Naturalis Principia Mathematica ("the Principia") on July 5, 1687.
Newton's law of gravitational attraction is a fundamental law of physics that governs the attraction between objects. It states that the magnitude of the gravitational force between any two objects is proportional to their masses and inversely proportional...
Gravity between Spherical Bodies01:27

Gravity between Spherical Bodies

Newton's law of gravitation describes the gravitational force between any two point masses. However, for extended spherical objects like the Earth, the Moon, and other planets, the law holds with an assumption that masses of spherical objects are concentrated at their respective centers.
This assumption can be proved easily by showing that the expression for gravitational potential energy between a hollow sphere of mass (M) and a point mass (m) is the same as it would be for a pair of extended...
The Principle of Superposition and the Gravitational Field01:17

The Principle of Superposition and the Gravitational Field

The principle of superposition applies to gravitational forces of objects that are sufficiently far apart. It states that the net gravitational force on a point object is the vector sum of the gravitational forces on it due to various objects. The principle helps calculate the force by listing the individual forces and then vectorially summing them up. However, it should be noted that the principle of superposition is not always apparent. In the presence of a second force, the first force could...
Gravitation Between Spherically Symmetric Masses01:14

Gravitation Between Spherically Symmetric Masses

The gravitational potential energy between two spherically symmetric bodies can be calculated from the masses and the distance between the bodies, assuming that the center of mass is concentrated at the respective centers of the bodies.

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Updated: May 27, 2026

An Analog Macroscopic Technique for Studying Molecular Hydrodynamic Processes in Dense Gases and Liquids
11:03

An Analog Macroscopic Technique for Studying Molecular Hydrodynamic Processes in Dense Gases and Liquids

Published on: December 4, 2017

A gravitational puzzle.

Robert R Caldwell1

  • 1Department of Physics and Astronomy, Dartmouth College, Hanover, NH 03755, USA. robert.r.caldwell@dartmouth.edu

Philosophical Transactions. Series A, Mathematical, Physical, and Engineering Sciences
|November 16, 2011
PubMed
Summary
This summary is machine-generated.

Cosmic acceleration may stem from modified gravity, not dark energy. Current cosmological data nearly confirms this, leaving limited room for alternative explanations of gravity on large scales.

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Area of Science:

  • Cosmology
  • Gravitation Physics
  • Astrophysics

Background:

  • The accelerating expansion of the universe is a major puzzle in modern cosmology.
  • General relativity currently describes gravity, but its predictions may not hold on the largest cosmic scales.
  • Understanding cosmic acceleration is key to a complete physical model of the universe.

Purpose of the Study:

  • To investigate whether cosmic acceleration arises from a modification of gravity.
  • To model and test a generalized relationship between matter and spacetime curvature.
  • To determine if current observations constrain alternative gravitational theories.

Main Methods:

  • Utilizing cosmological observations as probes of large-scale structure.
  • Analyzing data from the cosmic microwave background (CMB).
  • Employing weak gravitational lensing and galaxy clustering statistics.

Main Results:

  • Cosmological observations provide robust tests for modified gravity theories.
  • Current data are approaching a critical threshold for confirming or refuting the proposed generalized gravity model.
  • A small parameter space remains for scale-free modified gravity above galactic scales.

Conclusions:

  • Modified gravity is a viable alternative explanation for cosmic acceleration.
  • Cosmological observations are powerful tools for testing fundamental physics.
  • Further high-precision data will be crucial to fully constrain gravity on cosmic scales.