All congruent figures are similar figures, and have identical sizes.
3dimentional figures are solid figures.
The Celsius scale is not absolute. It has no absolute value.
First, simplify the equation: absolute (3x-1) = absolute (x+5) absolute (2x) = absolute (6) absolute (x) = absolute (3) which really means plus or minus 3, or, (+/-3) Now you have x = +/- 3, so test out x = 3 and x = -3. Test out x = 3: absolute (3*3-1) = absolute (3+5) absolute (9-1) = absolute (8) ---> absolute 8 = absolute 8 --> 8=8 which is correct! Now test x = -3 absolute (3*(-3)-1) = absolute (-3+5) ---> absolute (-9-1) = absolute (2) absolute (-10) = absolute 2 ---> 10 = 2 Since 10 does not equal 2, this is not a correct answer. Therefore x = 3.
Absolute 4 is 4. The question is now "what is 4-8b absolute = 12. There is an "absolute" here operating on nothing. This is still true if you mean absolute(4-8b) absolute =12 so the question cannot be interpreted.
Significant figures are important in measurement because they determine how accurate a scientific claim can be. There always has to be a small amount of uncertainty in an answer, because no measurement or calculation is ever 100% absolute.
The percent error in the measurement of density is calculated by taking the absolute difference between the measured value and the accepted value, dividing it by the accepted value, and then multiplying by 100. The result is rounded to the appropriate number of significant figures.
There is no such thing as "absolute safety" or "absolute health."
Absolute zero is 0 degrees Kelvin, -273.15 degrees Celsius, and −459.67 degrees Fahrenheit. Short answer: No. Technically, absolute zero could be defined to be whatever number you wanted on some arbitrary scale. However, on the two commonly used scales - Fahrenheit & Celsius - 273.15 is not absolute zero. I'm guessing that you actually meant -273.15. On the Celsius scale, this is absolute zero (to 5 significant figures).
An absolute reference. When the formula is copied, the absolute reference will not change.An absolute reference. When the formula is copied, the absolute reference will not change.An absolute reference. When the formula is copied, the absolute reference will not change.An absolute reference. When the formula is copied, the absolute reference will not change.An absolute reference. When the formula is copied, the absolute reference will not change.An absolute reference. When the formula is copied, the absolute reference will not change.An absolute reference. When the formula is copied, the absolute reference will not change.An absolute reference. When the formula is copied, the absolute reference will not change.An absolute reference. When the formula is copied, the absolute reference will not change.An absolute reference. When the formula is copied, the absolute reference will not change.An absolute reference. When the formula is copied, the absolute reference will not change.
Any cell can be used in another formula as an absolute reference. So an cell that has an average could be used. It might be useful in comparing other data values against the average, to see if they were above or below it. As the figures change, so would the average, and the process would be always up to date.
All congruent figures are similar figures, and have identical sizes.
3dimentional figures are solid figures.
The Celsius scale is not absolute. It has no absolute value.
First, simplify the equation: absolute (3x-1) = absolute (x+5) absolute (2x) = absolute (6) absolute (x) = absolute (3) which really means plus or minus 3, or, (+/-3) Now you have x = +/- 3, so test out x = 3 and x = -3. Test out x = 3: absolute (3*3-1) = absolute (3+5) absolute (9-1) = absolute (8) ---> absolute 8 = absolute 8 --> 8=8 which is correct! Now test x = -3 absolute (3*(-3)-1) = absolute (-3+5) ---> absolute (-9-1) = absolute (2) absolute (-10) = absolute 2 ---> 10 = 2 Since 10 does not equal 2, this is not a correct answer. Therefore x = 3.
4 significant figures.
Absolute and relative are really absolute value and other such.