Finite precision arithmetic, solve numeric errors by using the floating point.
The answer will depend on the precision of the measurement. The fact that the answer is given to 2 decimal places does not imply that the measurement is accurate to 2 dp. It could have been measured using an instrument accurate to 0.02 units.
Derived quantities are quantities which are made or found from other major quantities. There are two types of quantities. Ones are which are recognized throughout the world and using them other quantities are made.
Acceleration can be measured using an accelerometer.
2 or more quantities using multiplication.
The three fundamental quantities are length, mass, and time. Length is typically measured using a ruler or tape measure, mass is measured using a scale, and time is measured using a clock or stopwatch. Each of these quantities has specific units of measurement such as meters for length, kilograms for mass, and seconds for time.
Weight, temperature, length, time, and volume are examples of quantities that can be directly measured using specific devices such as scales, thermometers, rulers, clocks, and measuring cups. These measurements provide quantitative data that can be recorded and analyzed for various purposes.
A Bill of Quantities is measured using standard units of measurement such as area (sqm), length (m), volume (m³), or number (no.). Quantities are typically measured according to industry standards and specifications to ensure consistency and accuracy in estimating the costs of construction projects.
There are vast quantities of students that answer questions by plagiarizing examples from the internet.
Derived quantities are physical quantities that are calculated from one or more base quantities using mathematical operations. These derived quantities are not independent and depend on the base quantities for their definition. Examples include velocity (calculated from distance and time) and acceleration (calculated from velocity and time).
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These quantities are referred to as physical quantities in the field of physics. They are measurable properties that can be described using mathematical values and units. Area and volume are examples of scalar physical quantities, while velocity is an example of a vector physical quantity.
The correct answer doesn't appear in the list of choices.Each of those three quantities CAN be describes in SI units.
The greater the number of significant figures, the greater the precision. Each significant figure increases the precision by a factor of ten. For example pi = 3.14 is accurate to 3 significant figures, while pi = 3.14159 with 6 significant figures is a more accurate representation.
# Units allows use to compare quatities that are not in the same space, place or time # units also indicates the physics quantities measured or been measure as each quantities has particlar units
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Mercury is usually measured in grams since it is usually used in quantities where the magnitude is best measured in grams. It really depends on what you are using it for as to what unit of weight is best suited for measuring it. It obviously can be measured in any unit of weight.