The answer depends on how advanced your methods are. In general, the methods are the same except that if you have repeating decimals, they may cause rounding errors.
The methods are basically the same. For fractions, it is recommended to multiply everything by the common denominator first, but that's just for convenience.
Stoichiometry. You can compare the amounts of any materials in the same chemical equation using the formula weights and the coefficients of the materials in the equation.
As long as you give me the marks and you take none yourself I may consider doing such writing.
No. The number .205 is .005 smaller than .21 No. 0.21 is bigger.Note: To compare the decimal numbers,1) First compare the whole part.2) Then compare the fractional or decimal part. The numbers after the decimal point.3) Compare the tenth place, then compare the hundredth place and go on.Here 0 is the whole part.In the tenth place we have 2 in both the numbers. But in hundredth place we have 0 in the first number and 1 in the second number.So, the second number, 0.21 is bigger.Source: www.icoachmath.com
Compare IS the verb...As in "compare apples to oranges"
The verb of comparison is compare. As in "to compare something or someone".
The method is the same.
The method is exactly the same.
These coefficients show the number of molecules involved in the chemical reaction.
Rewriting the fractional part of the two numbers as a percentage, can help you compare the two numbers.
so scientist can compare result
Equations = the method
By rewriting the fractional part of 3.24 as 240/1000 will make it easier compare it to 275/1000.
this questions isn't specified enough to be answered
In a balanced equation, the coefficients show the mole ratio of the different substances. That is, it shows how each substance taking part in the reaction is related on a mole to mole basis.
the equations are backward but are the same molecules or substances being used
reduction factor is used to find earth's magnetic field and compare galvanometer constants
Type your answer here... The ratio of the substances' coefficients equals the ratio of their number of moles.