Indirect methods of measurement are appropriate when direct measurement is not feasible or accurate enough. This can be due to limitations in accessing the object being measured or restrictions in using conventional measuring tools. Indirect methods are often used in scientific research or in situations where precision is less critical.
The metric system would use meters to describe distance. Small distances would be measured in fractions of meters. Long distances in multiples of meters. 1 meter = 10 decimeters = 100 centimeters = 1,000 milimeters 1 kilometer = 1,000 meters
The inch-pound system is commonly referred to as the English system of measurement or the British imperial system. It is a system of measurement where distances are measured in inches and weights are measured in pounds.
When instead of measuring the specific thing directly you measure some other aspect of the event and from that figure out the actual value. Ex. Lets say that you need to find out the height of a tower, but that you can not measure it from top to bottom with a measuring tape. You can measure the shadow on the ground and with knowledge of the suns position and the angle of the shadow calculate the height of the tower.
Greenland is a part of Denmark, a European country so it would use the Metric System.
i am not answering this stupid question
Direct Measurement: Apply the instrument directly to the unknown quantity. E.g. Taped distance, direction measured with a theodolite Indirect Measurement: Determined from its relationship to direct measurements. E.g. height difference determination in trigonometric leveling
Direct measurement is when an object or something can be directly measured, meaning that you can actually pick it up and measure the sides (such as a box) Something that wouldn't be classified to be directly measured is something like a rock, where you need to use Indirect measurement to measure it, like dropping a rock in a container with water, and see how much the water rises. See related link below for more information
Displacement of water is an indirect measurement because we cannot directly measure the volume of an irregularly shaped object. By measuring the water displaced when the object is submerged, we can indirectly determine the volume of the object based on the volume of water displaced, according to Archimedes' principle.
Indirect measurement is a measurement that is not obtained from a measurement tool; it is a technique that obtains a measurement when direct measurement is not possible. In software metrics work, indirect measures associate a measure to a feature of the object being measured. An example is basing quality on counting rejects. Indirect measures include functionality, quality, complexity, efficiency, reliability, and maintainability.
angles can be measured directly
Indirect methods of measurement are appropriate when direct measurement is not feasible or accurate enough. This can be due to limitations in accessing the object being measured or restrictions in using conventional measuring tools. Indirect methods are often used in scientific research or in situations where precision is less critical.
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The SCALE of the map indicates the relationship between lengths measured on a map and the actual distances. It can indicate the ratio of distances (e.g. 1:10000) or the equivalent actual distance for an inch or centimeter as measured on the map, often providing a measurement bar for various distances.
The SCALE of the map indicates the relationship between lengths measured on a map and the actual distances. It can indicate the ratio of distances (e.g. 1:10000) or the equivalent actual distance for an inch or centimeter as measured on the map, often providing a measurement bar for various distances.
The SCALE of the map indicates the relationship between lengths measured on a map and the actual distances. It can indicate the ratio of distances (e.g. 1:10000) or the equivalent actual distance for an inch or centimeter as measured on the map, often providing a measurement bar for various distances.
The metric system would use meters to describe distance. Small distances would be measured in fractions of meters. Long distances in multiples of meters. 1 meter = 10 decimeters = 100 centimeters = 1,000 milimeters 1 kilometer = 1,000 meters