Engineering notation has to be a factor of 1000. (10^3, 10^6, 20^9, etc.
Sometimes engineers use either scientific or engineering notation, although you are correct that most of the time engineering notation is used. The reason for this the use if greek letter prefixes for quantities. Very often large and small quantities are expressed as micro, mega, giga, nano, and so on. These terms relate to engineering notation in multiples of 1000 or 1/1000. It is a very convenient shorthand not only in writing but also while speaking.
3.3 x 10^6
Engineers tend to use the most appropriate notation for a given situation, and in many situations, 847 will be a perfectly fine way of expressing the number 847 for an engineer.The expected answer to this question most probably is 0.847E3 though, which indicates a base number (0.847) is to be multiplied by 10 to the power of 3 (103=1000), thus 0.845E3 = 0.847 * 103 = 847.Engineering notation becomes more appealing with much larger numbers, or numbers much smaller than one (regardless of the number's sign). As a rule of thumb, you should consider using engineering notation for numbers that make you squint and count the zeroes. Straight-forward numbers such as 847 do not benefit from such complication. Engineers are pragmatic people.
Speaking as a young, self taught software engineer, Googling the issue it seems that there is no straight answer yet. Lots of people shoot the idea down as it being physics but that isn't really true since:Physics is mostly about studying how the world works, not getting the most out of itGenetic engineering, highway engineering, software engineering, social engineering etc... All have little to no direct use of "pure" physics to my knowledge.Personally I think that when theoretical engineering is defined it will have a general thinking process that goes as follows:We have this starting point and this desired outcome. The relationship can be explained by this piece of notation that looks like maths but isn't.We will need components that follow these not exactly mathematical behaviors.And we'll combine them as described here.
89,000 = 8.9 × 104
seven percent of 89000 dollars = $62307% of $89000= 0.07% * $89000= 0.07 * $89000= $6230
6% of 89000= 6% * 89000= 0.06 * 89000= 5,340
89000
how Yu express 0.55 in engineering notation
In engineering notation, 0.00001 is written as 10^-5.
Scientific notation: 3.3*103 And I'm not certain, but I think it is also 3.3*103 in engineering notation
89000
Predecesser of 89000 i Predecesser of 89000 is 8899
89000 is an integer and not a fraction. However, it can be expressed in rational form as 89000/1. You can then calculate equivalent rational fractions if you multiply both, its numerator and denominator, by any non-zero integer.
Engineering notation has to be a factor of 1000. (10^3, 10^6, 20^9, etc.
Sometimes engineers use either scientific or engineering notation, although you are correct that most of the time engineering notation is used. The reason for this the use if greek letter prefixes for quantities. Very often large and small quantities are expressed as micro, mega, giga, nano, and so on. These terms relate to engineering notation in multiples of 1000 or 1/1000. It is a very convenient shorthand not only in writing but also while speaking.