Category
Astronomy (71)Astrophysics (22)Cosmology (17)Space Exploration (11)Stellar Astronomy (8)Planetary Science (7)Physics (6)Technology (6)Space (5)Galactic Astronomy (4)Science (4)Astrology (3)Astrobiology (3)Engineering (2)Binary Stars (2)Observational Astronomy (2)Stellar Kinematics (2)Progress (1)Neutron Stars (1)Galactic Structure (1)Stellar Evolution (1)Cometary Science (1)Exoplanetology (1)Planetary Defense (1)Stellar Science (1)Particle Physics (1)Astrophotography (1)Stellar Motion (1)Gravitational Physics (1)Galaxy Dynamics (1)Stars (1)Comets (1)Maps (1)Celestial Mechanics (1)Exoplanet Research (1)Instrumentation (1)Stellar Astrophysics (1)Theoretical Physics (1)Geodesy (1)Astrogeology (1)Navigation (1)History (1)Safety (1)Seti (1)
Usage Examples
Filter by Meaning Astrometry is a crucial tool in the search for exoplanets and the study of their orbits.
Astrometry helps astronomers determine the position and movement of stars in the sky.
Astrometry is used to track the movement of asteroids and predict potential impact risks.
Astrometry was used to determine the distance between Earth and Mars.
The use of astrometry has helped scientists understand the distribution and movement of dark matter in the universe.
The astrometry of a pulsar can help determine its distance from Earth.
The astrometry measurements of a distant planet allowed scientists to calculate its mass and size.
The astrometry of a galaxy cluster can provide insights into dark matter and its distribution.
The astrometry calculations of binary star systems can reveal important information about the stars' properties.
The European Space Agency's Gaia satellite mission is dedicated to precise astrometry measurements of one billion stars.
Astrometry is essential in the study of gravitational lensing, which can reveal the presence of dark matter in the universe.
Astrometry has been used to discover exoplanets orbiting other stars in our galaxy.
Astrometry helps to study the proper motion of stars in our galaxy.
The precision of astrometry measurements has improved significantly with the use of adaptive optics technology.
Astrometry has played a crucial role in the search for exoplanets and their characterization.
The astrometry of a comet can provide valuable information about its orbit and potential future paths.
Astrometry can be used to measure the distances to nearby stars.
Astrometry played a key role in confirming Einstein's theory of general relativity, which predicted the bending of light by massive objects.
Astrometry is a fundamental tool used by astronomers to determine the position and motion of celestial objects in space.
The development of astrometry techniques has greatly expanded our understanding of the history of the universe.
The astrometry data from the Hipparcos satellite revolutionized our understanding of the structure and dynamics of our galaxy.
By observing the astrometry of distant galaxies, astronomers can estimate their masses and determine their dark matter content.
The astrometry of a star can reveal information about its distance, size, and orbit.
Astrometry is used by astronomers to determine the positions and movements of stars and planets in the sky.
The accuracy of astrometry is essential for the navigation of spacecraft.
Astrometry is one of the oldest branches of astronomy, with records dating back to ancient civilizations.
The study of astrometry can help astronomers understand the structure and evolution of our galaxy.
Astrometry can also be used to study the distribution of dark matter in the universe.
Astrometry measurements have revealed the presence of unseen matter in our universe, such as dark matter and dark energy.
The study of astrometry has led to the discovery of new exoplanets.
The European Space Agency's Gaia mission is dedicated to performing precise astrometry of one billion stars in our Milky Way galaxy.
Astrometry is an important tool for investigating the structure of our Milky Way galaxy.
Astrometry can be used to detect and track asteroids that may pose a threat to Earth.
Astrometry can be used to measure the parallax of nearby stars and determine their distances.
The accuracy of astrometry measurements has greatly improved with the development of new technologies and techniques.
Astrometry has played a crucial role in the study of gravitational waves.
Astrometry is a branch of astronomy that involves measuring the positions and motions of celestial objects.
The satellite was designed to perform precise astrometry of distant galaxies.
The study of astrometry can provide insights into the history and evolution of the universe.
Astrometry is used to study the proper motion of stars across the sky.
The astrometry of the exoplanet allowed astronomers to determine its size and distance from its star.
The astrometry measurements taken by telescopes provide valuable information about the motion of galaxies.
Astrometry has allowed scientists to determine the size and shape of our solar system.
Astrometry helps astronomers calculate the distance between stars and planets.
Astronomers use astrometry to study the proper motion of stars over long periods.
The astrometry data collected by the space telescope was used to map the movements of asteroids in our solar system.
By using astrometry, scientists can determine the rotation rates of planets and moons.
The astrometry measurements of a comet's trajectory helped astronomers predict its path and potential impact with Earth.
Astrometry is a crucial tool for studying the evolution of star clusters.
The astrometry data collected by the telescope was used to create a 3D map of the Milky Way.
Post a Comment