Gradiometer is a piece of instrument used for the measurement of angle of depression, tilt, or elevation. All angles are measured in respect to gravity. Slope indicator is also known by several other names including level meter, inclinometer, clinometer, gradient meter, gradiometer, roll indicator, and declinometer among many others. Units of measurement used in the instrument are percentage, degrees, and topos.
Declinometers are used in measuring both negative and positive angular tilt from some mean point. Before renaissance started, navigation and location of astronomical objects was done by a certain kind of declinometer referred to as an astrolabe. The application of astrolabes reduced after renaissance and it is rare to find people who still use them.
The use of inclinometers began a long time ago and they are still in use today. At the time of their invention, they had limited use and they were used for a few functions. However, as technology continued to advance, they gained popularity and the number of functions they were put to increased. Old versions were simple instruments that only performed a single function. Current-day models are whole systems that can perform several functions at ago.
The current sophistication in modern devices can be attributed to advancements in technology. Technology makes their construction much easier. Additionally, there are several kinds of technology-based devices that are being invented that rely on inclinometers for proper functioning. The number of manufacturers has increased which has contributed to increase in the level of sophistication of the devices as well their availability.
The uses of tilt indicators are many and they are in several fields of work. Electrolytic, accelerometer, and pendulums are some of the main implementations of tilt indicators. Major applications include cameras, specialty switches, aircraft flight control, automobile security systems, platform leveling, and boom angle indication. The principle on which the functioning of the device bases on is very simple and simply involves generation of an artificial horizon. The angular tilt is then generated basing on that horizon.
Modern day devices can be used to do many different things. Some the functions include alerting system operators that the machine may tip off, indicating deviation from vertical or horizontal, in safety systems of certain automobiles, and surveying among others. The uses have grown and today, almost all industries use the device.
Accuracy of an inclinometer is a very important aspect of the device. Accuracy varies depending on many factors including technology used, model, temperature, sensitivity, sensor linearity, zero offset, and repeatability among many others. Usually the aforementioned factors occur in combination to affect accuracy. Digital models are more accurate that their analogue counterparts. Digital devices have very high levels of accuracy, sometimes rising as high as 0.0001 degrees.
Placing the device inside a casing can also determine accuracy and general functioning. Accuracy can be affected greatly by certain casings and should be avoided. The casing chosen should also be made of durable material to improve durability of the device.
Declinometers are used in measuring both negative and positive angular tilt from some mean point. Before renaissance started, navigation and location of astronomical objects was done by a certain kind of declinometer referred to as an astrolabe. The application of astrolabes reduced after renaissance and it is rare to find people who still use them.
The use of inclinometers began a long time ago and they are still in use today. At the time of their invention, they had limited use and they were used for a few functions. However, as technology continued to advance, they gained popularity and the number of functions they were put to increased. Old versions were simple instruments that only performed a single function. Current-day models are whole systems that can perform several functions at ago.
The current sophistication in modern devices can be attributed to advancements in technology. Technology makes their construction much easier. Additionally, there are several kinds of technology-based devices that are being invented that rely on inclinometers for proper functioning. The number of manufacturers has increased which has contributed to increase in the level of sophistication of the devices as well their availability.
The uses of tilt indicators are many and they are in several fields of work. Electrolytic, accelerometer, and pendulums are some of the main implementations of tilt indicators. Major applications include cameras, specialty switches, aircraft flight control, automobile security systems, platform leveling, and boom angle indication. The principle on which the functioning of the device bases on is very simple and simply involves generation of an artificial horizon. The angular tilt is then generated basing on that horizon.
Modern day devices can be used to do many different things. Some the functions include alerting system operators that the machine may tip off, indicating deviation from vertical or horizontal, in safety systems of certain automobiles, and surveying among others. The uses have grown and today, almost all industries use the device.
Accuracy of an inclinometer is a very important aspect of the device. Accuracy varies depending on many factors including technology used, model, temperature, sensitivity, sensor linearity, zero offset, and repeatability among many others. Usually the aforementioned factors occur in combination to affect accuracy. Digital models are more accurate that their analogue counterparts. Digital devices have very high levels of accuracy, sometimes rising as high as 0.0001 degrees.
Placing the device inside a casing can also determine accuracy and general functioning. Accuracy can be affected greatly by certain casings and should be avoided. The casing chosen should also be made of durable material to improve durability of the device.
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