Yes, when multiplying several quantities, the final answer should contain the same number of significant figures as the quantity with the least significant figures. This rule ensures that the precision of the result reflects the least precise measurement involved in the calculation. Thus, it's important to identify and limit the final answer based on the measurement with the smallest significant figures.
There is no limitation on quantities. You can purchase a single stamp at the post office.
The smallest quantity in an equation is likely to be the coefficient of the variable with the highest degree. This is because the variable with the highest degree will have the most significant impact on the value of the overall expression.
The smallest quantity that is divisible by two or more given quantities without a remainder: 12 is the lowest common multiple of 2, 3, 4, and 6.
Generally, magnets are available in quantities as low as two dozen. The more magnets you purchase and personalize, the cheaper rate you can receive for buying more.
To arrange quantities from smallest to largest, first, compare each value to identify the smallest one. Once identified, place it at the beginning of your list, then continue comparing the remaining quantities to find the next smallest. Repeat this process until all quantities are organized in ascending order. Finally, double-check your arrangement to ensure accuracy.
The quantity that is most likely to be the smallest in the equation E=mc^2 is the mass (m). Mass is typically much smaller than the speed of light squared (c^2), and energy (E) can be significant due to the speed of light's large value.
Unicellular... Umm... I think so
The smallest quantity of an element is an atom.
The likely word is "least" (of the smallest quantity or extent).
35 is the smallest number with ANY quantity of digits that qualifies.
m apex :)
It can be as small as you like - down to a quantum level.