Read the numerical value of the marked line. Finally you estimate between the smallest marked lines. The estimated value is the final digit in a measures number.
Accuracy refers to how close a measured value is to the true value, while precision refers to how close multiple measurements are to each other. In scientific measurement, accuracy indicates the system's ability to measure the true value, and precision describes the system's consistency in producing similar results.
1. All non zero digits are significant numbers... e.g 12345, 12 ,3576 and all...! 2. All zeros between two non-zero digits are significant e.g 2007 and 9008...! 3. For numbers less than one zeros directly after the decimal point are not significant e.g 0.001 and 0.057..! 4. A zero to the right of the decimal place and following a non-zero digit is significant e.g 1.725...! 5. All other zeros at the left of a number are NOT considered as significant numbers e.g 0023...!
Velocity is a vector measurement, it has both a speed quantity, but also includes direction. Speed is a scalar measurement, it only concerns with the how fast the object is moving, not its direction
A measurement that has a larger number of significant figures has a greater reproducibility, or precision because it has a smaller source of error in the estimated digit. A value with a greater number of significant figures is not necessarily more accurate than a measured value with less significant figures, only more precise. For example, a measured value of 1.5422 m was obtained using a more precise measuring tool, while a value of 1.2 m was obtained using a less precise measuring tool. If the actual value of the measured object was 1.19 m, the measurement obtained from the less precise measuring tool would be more accurate.
That depends a lot on what exactly you are measuring. With very precise devices, time can be measured to something like 15 significant figures; in most other cases, the number of significant digits is much less - sometimes only one or two, or even less.
All the digits are significant in this case. A zero between other digits is always significant, and all zeros after the decimal point are significant.
the first number is usually in feet, the last number is in inches. so the last number = 1/12 of the first numbers value.
For now, I'll assume for simplicity that the numbers are positive. The number with the greatest amount of integer digits (before the decimal point, if any) is larger. If both numbers have the same number of integer digits, compare each digit in turn until you find one digit that is different. The number with the largest digit in this place is larger. Examples: 1234 is greater than 430, because it has more digits. 125 is greater than 117, because in the first digit they differ (second position from left), it has the greater digit. 0.007 is greater than 0.0009, because in the third digit to the right of the decimal point (the first digit where they differ), it has the greater digit (7 is greater than 0).
The same digits as in any other system of measurement: the ten digits from 0 to 9.
The answer depends on which digit is 5 and what the other digits are!
All of the digits are significant:Any digit after the decimal point is significant.A zero is significant if it comes between other significant digits.
The number you are looking for is 50099. It is a five-digit number greater than 40000 but less than 70000. The ones digit (9) is greater than the ten thousand digit (5), all other digits (0) are the same, and the sum of the digits (5 + 0 + 0 + 9 + 9) equals 19.
Ans: 462
With 6 binary digits, you have 26 different possibilities. This is because there are two possibilities for each digit, and each digit is independent of the other digits - so you just multiply the possibilities for each digit together.
22621, 44742, 66863, 88984
34, 45 etc.
22621, 44742, 66863, 88984