I got this book a couple years ago called Physics Demystified out of my own personal interest, and I've been stuck on these two questions in the first chapter since then. I've read the chapter over and over and still can't seem to understand the answers because the chapter doesn't really touch on what the questions are asking so I'm clueless.
The answers are in the back of the book, and even with the answers, I still don't get it.
The questions are,
>Suppose that you measure a quantity, call it q, and get 1.5 x 10^4 units. Within what range of whole-number values can you conclude that q actually lies?
Answer: 14,500 ≤ q < 15,500
>Suppose that you measure a quantity, call it q, and get 1.50 x 10^4 units. Within what range of whole-number values can you conclude that q actually lies?
Answer: 14,950 ≤ q < 15,050
They may seem simple to some of you, but I don't get it. Please help me understand why these are the answers.
>pic unrelated
Basically, no measurement of physical quantity can be entirely accurate. So when you measure a quantity and report a figure, you also imply an error in measurement from the number of meaningful digits.
The reason the estimated error is different(has less room for error that is) in the second example is because the equation has more significant digits(1,50 has three significant digits while 1,5 only has two). The first example has an implied uncertainty of 0,1 because you do not know any more decimals than the reported 1,5, while the uncertainty of 1,50 is 0,01.
>>41126
The text is a little misleading.
>Suppose that you measure a quantity, call it q, and get 1.5 x 10^4 units.
The use of "you" can be misunderstood, since it could mean that the result is exact, that the exact result is known by "you" but it was rounded, that the margin of error is known since "you" measured it and so on.
Assume that you used an instrument or an extern laboratory and it gave the result 1.5 x 10^4 units. You know nothing more than this, only this number, nothing more. Since you don't know the actual quantity, you must assume that q was rounded, that is, 1.5 could be an arbitrary number between 1.45 and 1.54999...