The answer is False.
The system of latitude and longitude is used to describe the location of points on the surface of the earth. Celestial objects don't have latitude and longitude. There is a similar system defined in the sky. Those coordinates are called Right Ascension and Declination.
"Right Ascension" is a coordinate in one of the main celestial coordinate systems. It is measured eastward along the "celestial equator". The units of measurement are hours, minutes and seconds. Those units are used because the "celestial sphere" appears to rotate once each day. Each hour is the equivalent of 15 degrees. The zero or starting point for right ascension is the "Vernal Equinox". It may seem odd to refer to the Vernal Equinox as the starting point of a coordinate system. The Vernal Equinox is actually a point in space. This point in space is occupied by the Sun at the time we call the Vernal Equinox. You can think of Right Ascension as being the equivalent of the Earth's meridians projected out into space.
The system of longitude and latitude is designed and used for the purpose of locating points on the surface of the Earth. These coordinates don't refer to celestial (sky) objects. There's a whole separate coordinate system applied to the sky, and there's no constant relationship between that one and the surface coordinates. In celestial coordinates, Cassiopeia occupies the range of Right Ascension between about 22Hr 57Min and 3Hr 37Min, and the range of declination between about 40.7° and 77.55°. Where those coordinates appear in your sky depends on the date and your location.
It half of the celestial sphere, which is an imaginary sphere with the Earth at the centre, on which all objects in the sky can have their positions described by a type of latitude (declination) and a type of longitude (right-ascension). Declination goes from -90 degrees (south) to +90 degrees (north), while right ascension goes from 0 to 24 hours. They are called geocentric coordinates, and although we know the Earth is not at the centre of anything, they are useful in describing where to look for a star or to point a telescope.
No. Asteroid belts are not celestial objects, but asteroids are.
Longitude and Latitude are used to refer to positions ON EARTH and are not used to locate the position of astronomical objects. In astronomy, a celestial coordinate system is a system for specifying positions of celestial objects. Orion's position is:- Right Ascension 5h , Declination +5°
The system of latitude and longitude is used to describe the location of points on the surface of the earth. Celestial objects don't have latitude and longitude. There is a similar system defined in the sky. Those coordinates are called Right Ascension and Declination.
"Right Ascension" is a coordinate in one of the main celestial coordinate systems. It is measured eastward along the "celestial equator". The units of measurement are hours, minutes and seconds. Those units are used because the "celestial sphere" appears to rotate once each day. Each hour is the equivalent of 15 degrees. The zero or starting point for right ascension is the "Vernal Equinox". It may seem odd to refer to the Vernal Equinox as the starting point of a coordinate system. The Vernal Equinox is actually a point in space. This point in space is occupied by the Sun at the time we call the Vernal Equinox. You can think of Right Ascension as being the equivalent of the Earth's meridians projected out into space.
"Latitude" and "longitude" are the coordinates used to measure the positions of points on the surface of the earth, referenced to the Equator and Prime Meridian ... both of those are also imaginary marks on the earth's surface, and they turn with the earth. Objects in the sky are located with a similar coordinate system, consisting of Right Ascension, measured east from the Vernal Equinox, and Declination, measured north/south from the Celestial Equator. That system "turns" with the sky. The entire system of celestial, coordinates appears to make a complete rotation around the entire system of terrestrial coordinates, every day. The constellation of Orion is centered at about 15H 30M Right Ascension and about -20 degrees Declination on the celestial coordinate system. That location remains fixed over the latitude of 20 degrees south on the earth, but it passes over every longitude on earth, every day.
The system of longitude and latitude is designed and used for the purpose of locating points on the surface of the Earth. These coordinates don't refer to celestial (sky) objects. There's a whole separate coordinate system applied to the sky, and there's no constant relationship between that one and the surface coordinates. In celestial coordinates, Cassiopeia occupies the range of Right Ascension between about 22Hr 57Min and 3Hr 37Min, and the range of declination between about 40.7° and 77.55°. Where those coordinates appear in your sky depends on the date and your location.
It half of the celestial sphere, which is an imaginary sphere with the Earth at the centre, on which all objects in the sky can have their positions described by a type of latitude (declination) and a type of longitude (right-ascension). Declination goes from -90 degrees (south) to +90 degrees (north), while right ascension goes from 0 to 24 hours. They are called geocentric coordinates, and although we know the Earth is not at the centre of anything, they are useful in describing where to look for a star or to point a telescope.
Not quite. Instead of being described in Cartesian coordinates such as X, Y, and Z, celestial objects are described in an angular coordinate system sometimes called "rho, theta". These are letters of the Greek alphabet often used to measure angles.We still use three coordinates representing the number of degrees around the ecliptic a celestial object is, and the number of degrees north or south of the ecliptic plane. The third coordinate is a distance. These are similar to the bearing, elevation and range coordinates that you might use in gunnery.
No. Asteroid belts are not celestial objects, but asteroids are.
Astronomy is the study of celestial objectsRadio astronomy is the study of celestial objects that emit radio waves.
The system of latitudes and longitudes is a method used to locate points on the Earth's surface. There is a similar coordinate system used to locate objects in the sky, but it's not latitude/longitude.
The space rock is the celestial space object that a meteoroid comes from.
because the objects exist at different distances from earth.