Both are correct.
Anytime if you encounter a hydrocarbon chain with 2-COOH groups, you can name them simply without numbering them, as they will be counted at the end of chain.
IUPAC NAME = ethanedi
50 g of CaCO3 is decomposed in the following reaction:
CaCO3 -----> CaO + CO2
7g of CaO is formed.
How do I calculate the percentage yield of CaO? Thanks!-Your equation is balanced so the next step
50 g of CaCO3 is decomposed in the following reaction:
CaCO3 -----> CaO + CO2
7g of CaO is formed.
How do I calculate the percentage yield of CaO? Thanks!-Your equation is balanced so the next step
50 g of CaCO3 is decomposed in the following reaction:
CaCO3 -----> CaO + CO2
7g of CaO is formed.
How do I calculate the percentage yield of CaO? Thanks!-Your equation is balanced so the next step
50 g of CaCO3 is decomposed in the following reaction:
CaCO3 -----> CaO + CO2
7g of CaO is formed.
How do I calculate the percentage yield of CaO? Thanks!-Your equation is balanced so the next step
how can you pronounce the polymer 1,6-diaminohexane-Poly-one-six-dye-amino-hexane
. .-
POLYYmeier-
1,6-diaminohexane is not a polymer, it is simply hexane with a primary amino functional group at eac
The question is: Which of the following pairs represent members of an homologous series?
The options are:
A. C2H4 and C2H6
B. C2H5Cl and C2H4Cl2
C. CH3OCH3 and CH3CH2OH
D. C3H7COOH and C4H9COOH
W
When the compounds below are listed in order of decreasing boiling point (highest to lowest) what is the correct order?
1. ethane2. fluoroethane3. ethanol4. ethanoic acid
A. 4,3,1,2
B. 4,3,2,1
C.
Like, in any scenario (if I needed to find P, V, n or T), will I get the same answer as if I used PV=nRT if I do this?
P1V1/T1n1=p2V2/T2n2-Not exactly, n does not change in the classic gas problems,
The question is How many different isomers have the formula C4H10?
I thought that the answer is 1, but apparently the correct answer is 2. I dont understand this. Why is that?-Its semantics. There ar
Calculate the approximate molarity (M) of a 13.0% (w/w) solution of H2SO4 (MM = 98.08 g/mol) with specific gravity of 1.090.
A. 2.90C. 1.44E. none of the above
B. 2.43D. 1.22
-Start with 1.0L of th
Calculate the approximate molarity (M) of a 13.0% (w/w) solution of H2SO4 (MM = 98.08 g/mol) with specific gravity of 1.090.
A. 2.90C. 1.44E. none of the above
B. 2.43D. 1.22
-Start with 1.0L of th
Calculate the approximate molarity (M) of a 13.0% (w/w) solution of H2SO4 (MM = 98.08 g/mol) with specific gravity of 1.090.
A. 2.90C. 1.44E. none of the above
B. 2.43D. 1.22
-Start with 1.0L of th
Well first we need to find moles of NaCl
Molar concentration = #moles/Volume (L)
3.00M = #moles / 1.00L
Cross multiply
#moles = 3.00moles
Now we use mole equaton
#moles= mass (g) / Molar mass (g
potassium iodideacetonesilver iodideall molecular when dissolved in water
and
hydroiodic acid
weak conductor when aqueous
covalent compounds
sulfuric acid
Thanks!-Hi, so to understand this we just ne