These are terms used in surveying and astronomy (usually quotes in angles) to denote the apparent position of an object in the sky based on a specific obervation point or an observer on the Earth's surface. See the following link for an example: http://searchcio-midmarket.techtarget.com/sDefinition/0,,sid183_gci838808,00.html
There are a number of ways to describe locations or positions. One of these is to describe the direction toward an object in degrees; this is the "azimuth". For objects in the sky, we must also know the angular elevation above the horizon, or "altitude angle". This is usually shortened to "altitude". By specifying the azimuth angle and altitude angle, we can describe precisely the direction of any object in the sky.
An azimuth thruster is an engine and ship's propeller in a pod which is azimuth adjustable.
The azimuth and altitude of Sagittarius depend where you are on Earth and the date and time. The altitude can be anything form 0-90, and the azimuth 0-180.
azimuth 100 degrees altitude 20 degrees
The term 'azimut' is an Italian word meaning 'azimuth' An azimuth is an angle that is used in the spherical coordinate system. There was also a band called Azimuth. They were a British jazz trio.
Elevation is a vertical lift and azimuth is a rotation around a vertical axis. An example of its use is in radar. The radar antenna rotates towards its target, its azimuth, and then lifts vertically to elevate the receiver then locks on to the target.
Using a Dish satellite in zip code 78642: azimuth: 203, elevation:50 and skew: 116
http://www.dbsforums.com/azel.html use this to coordinate azimuth, elevation and angle.
Zip Code -426XXElevation -34Azimuth -231Skew - 127 These are the settings for a 1000.2, 1000.4, or 1000.5 dish. If you don't have that type dish, exclude the skew.
"Azimuth and Elevation" is a way of locating a geostationary satellite in the sky, based on your latitude & longitude. For the Seattle, Washington area, for example, the basic bird for Dish Network installs is at Azimuth 150, Elevation 34. So to locate the point in the sky where the bird is, you start with a compass heading of 150 degrees (which is 30 degrees East of due South) and then point up 34 degrees above the horizon.
Azimuth about 270 degrees. That's due West. Elevation (or altitude) about 5 degrees. That's just above the horizon. Venus is always fairly near the Sun in the sky. The Sun sets roughly in the West. Amongst other things, the actual azimuth would depend on time of year and different latitude, of course. I've used the convention for azimuth of North 0 or 360 degrees, West 270 degrees, South 180 degrees, East 90 degrees. There are other conventions.
Search radar explore large volume of space. Normally it has a 360 degree of azimuth and 20-30 degrees to 90 degrees elevation angle. Tracking radars locks a perticular target. Normally it has a narrow azimuth.
A BACK AZIMUTH IS A PROJECTION OF THE AZIMUTH FROM THE ORIGIN TO THE OPPOSITE SIDE OF THE AZIMUTH CIRCLE. i.e. THERE ARE 360 DEGREES IN AN AZIMUTH CIRCLE, THUS THE OPPOSITE DIRECTION IS 180 DEGREES.
There are a number of ways to describe locations or positions. One of these is to describe the direction toward an object in degrees; this is the "azimuth". For objects in the sky, we must also know the angular elevation above the horizon, or "altitude angle". This is usually shortened to "altitude". By specifying the azimuth angle and altitude angle, we can describe precisely the direction of any object in the sky.
An azimuth thruster is an engine and ship's propeller in a pod which is azimuth adjustable.
To convert a magnetic azimuth to grid azimuth, subtract G-M angle.” If you have a magnetic azimuth of 270 degrees, and the G-M angle is 8 degrees, your grid azimuth will be 262 degrees.
Azimuth is the angle, typically using true north as zero degrees to an object from viewers location. An altitude (if expressed as an elevation angle from the viewer) provides a line of sight to an object in space. If you were standing at a point and facing true north and there was an airplane flying at 20,000 ft and you knew the elevation angle you could compute the range and have an (X,Y,Z) location for the object.