The fuel used in many disposable lighters is liquid butane, C4H10. Butane has a molecular weight of 58.1 grams in one mole. How many carbon atoms are in 3.00 g of butane?
Answers
3.00g C4H10 / 58.1 g C4H10 = .0516 mol C4H10
There are 4 atoms of carbon per mol of C4H10
Multiply .0516 mol C4H10 by 4 (number of atoms of carbon)=.20654 mol Carbon.
To convert to atoms, multiply that by avogadro's number, 6.022 x 10^23
which equals 1.2438 x 10^23 atoms of Carbon
Answer:
1.2433 *10^23 carbon atoms
Explanation:
First you need to calculate the grams of the empirical formula.
C4H10
Carbon = 12.01 g x 4
Hydrogen = 1.008 x 10
Sum those together to get = 58.12 g
Divide the 3.00g by the total g in the compound.
3.00/58.12 = 0.0516
Then times 0.0516 by the number of carbon atoms
0.0516 x 4 = .20646
Then multiple by Avogadro's number
.20646 x 6.022x10^23 = 1.2433x10^23
Rounded to 1.24x10^23 carbon atoms
Related Questions
Speed of sound is greater in aluminum or steel quora . True or False
Glucose is an important sugar in many biochemical reactions what is the molarity of a solution that contains 500 grams of glucose (molecular weight= 180.16 g/mol) in 7.02 liters of solutiona. .56Mb. .78 Mc. 3.85 Mb. 4.98 M
Which of the following is equivalent to 3.2 mg?a3.2 x 10-15 ugb 3.2 x 1015 ugС3.2 x 10-3 ugd3.2 x 10'ug
In 3 to 5 sentences identify the type of bonding the would form between potassium and chlorine use a electronegativitynegativity to justify the bond type provide a chemical formula for resulting compound
Answers
Answer:
The answer is
0.087 g/mL
Explanation:
The density of a substance can be found by using the formula
From the question
mass of liquid = 2.6 g
volume = 30 mL
The density is
We have the final answer as
0.087 g/mL
Hope this helps you
(2) decomposition of the solute
(3) evaporation of the solvent
(4) titration
Answers
Answer:
4) titration
Explanation:
Titration is a standard process used in a laboratory to determine the concentration of an unknown analyte. A titrant of known concentration is gradually added to a known volume of the analyte in the presence of a suitable indicator. The end of the titration is marked by a color change of the analyte.
The given example is that of an acid(HBr) - base(NaOH) titration which can be represented by the following equation:
NaOH + HBr → NaBr + H2O
Thus 1 mole of acid gets neutralized by 1 mole of the base to form 1 mole of the salt (NaBr)
Let M1 and V1 are the molarity and volume of the base (NaOH). Here, the molarity of NaOH is known = M1 = 0.10 M and the volume, V1 corresponds to the end point in the titration.
M2 and V2 are the molarity and volume of HBr. Here, V2 is known whereas M2 needs to be determined.
Based on the reaction stoichiometry:
moles of NaOH = moles of HBr
Answers
M=454g
p=8.92
v=50.896860986
3 significant figures
v= 50.9
Final answer:
The volume occupied by 454 grams of copper, given a density of 8.92g/mL, can be calculated using the formula for density (Density = Mass / Volume). When rearranged to find volume (Volume = Mass / Density) and substituting the given values, the volume occupied is approximately 50.9 mL.
Explanation:
When calculating volume in chemistry, we use the formula for density, which is: Density = Mass / Volume. In this case, the given values are mass (454g) and density (8.92g/mL). If we rearrange the formula to solve the volume, we get: Volume = Mass / Density. So, if we substitute the given values into the equation, we obtain: Volume = 454g / 8.92g/mL. In performing the operation, we get approximately 50.9 mL. Hence 454 grams of copper occupy 50.9 mL of volume.
Learn more about Calculating Volume here:
#SPJ2
Answers
Radiative since the microwave is releasing radiation,
Light since there is light inside the microwave,
Electronic since it is plugged in and uses electricity.
You can also use sound, but I don't think every microwave makes sound.
Answers
Answer: The limiting reagent is Oxygen molecule and 4 atoms of Iron will be left over.
Explanation:
The given chemical equation is:
By Stoichiometry of the reaction:
3 molecules of oxygen gas reacts with 4 atoms of iron.
So, 6 molecules of oxygen gas will react with = atoms of iron.
As, the required atoms of iron is less than the given atoms of iron. Therefore, it is present in excess and is considered as an excess reagent.
Hence, the limiting reagent is Iron atom because it limits the formation of product.
Atoms left remaining at the end of the reaction will be = 12 - 8 = 4 atoms.
Thus, the limiting reagent is Oxygen molecule and 4 atoms of Iron will be left over.
moles of Fe and O₂:
12 atoms/(6.02x10^23 atoms/mole)=1.99x10^-23 mol Fe
6 molecules/(6.02x10^23 molecules/mole)=9.967x10^-24 mol O₂
Then you find the limiting reagent by finding how much product each given amount of reactant can make. Which ever one produces the least amount of product is the limiting reagent.
amount of Fe₂O₃ produced:
(1.99x10^-23 mol Fe)x(2mol/4mol)= 9.967x10^-24mol Fe₂O₃
(9.967x10^-24 mol O₂)x(2mol/3mol)= 6.645x10^-24 mol Fe₂O₃
since oxygen produces the leas amount of product, oxygen is the limiting reagent. since we know that oxygen is the limiting reagent we can use the amount of product formed with oxygen to find the amount of iron used.
6.645x10^-24 mol Fe₂O₃x(4mol/2mol)=1.329x10^-23 mol Fe consumed
find the amount left over by subtracting the original amount of Fe by the amount consumed in the reaction.
1.993x10^-23-1.329x10^-23= 6.645x10^-23mol Fe left
find the number of atoms by multiplying that by Avogadro's number.
(6.645x10^-23mol)x(6.02x10^23 atoms/mol)=4 atoms
therefore 4 atoms of Fe will be left over after the reaction happens.
I hope this helps.
Answers
Object 1 is have more density than Object 2.
What is density ?
A material's density is a measure of how much stuff of a material has in a unit volume.
It is essentially a measured to see how tightly matter is crammed together or how a matter is compact.
For instance wood floats in water as it has lower density, while an anchor sinks as it has a higher density.
Helium balloons float in air as air has higher density than helium.
A specific gravity which is a related term to density otherwise called as relative density of a material.
It is the ratio of the density of a material to the density of water.
If the specific gravity of an object is less than one will float in water, where as specific gravity greater than one means it will sink. Hence object 1 has more density.
Learn more about density, here:
#SPJ2