Answer:
a. 2.7 mol of water
b CH2.
c. O2
Explanation:
The complete equation of the reaction should be:
2CH2(g) + 3O2(g) → 2 CO2(g) + 2 H2O(g)
a) how many moles of water will be made?
To make 2 molecules of water (H2O) we need 2 molecules of CH and 3 molecules of O2.
We have 2.7 mol of CH2, the possible yield of water produced if it all used up will be:
2.7 mol * 2/2= 2.7 mol
We have 6.3 mol of O2, the possible yield of water produced if it all used up will be:
6.3 mol * 2/3 = 4.2 mol
Since the maximum yield of CH2 lower, we can have 2.7 mol of water and have some excess oxygen at the end of the reaction.
b) What is the limiting reactant?
A limiting reactant is a reactant that will be used up in the reaction. This reactant has the lowest stoichiometric ratio compared to other reactants, which make them the one depleted out first. Since they depleted, the reaction will stop. Thus they limit the number of reactions and called limiting reactants. If you add the limiting reactant, the reaction will continue.
The limiting reactant in this reaction is the CH2. When producing water molecules, all 2.7 mol of CH2 will be used while we still have O2 left.
c) What is the excess reactant?
The excess reactant will have some remains after the reaction stop. That is because the excess reactant has more mass than needed for the reaction that will use all limiting reactants. Since we still have remains, adding excess reactant won't continue the reaction.
The excess reactant in this question is O2 since it still has remained after we make 2.7 mol of water. The O2 remaining, in this case, will be:
6.3 mol - 2.7mol * 3/2= 2.25 moles
What is the mass in grams of 2.6 moles of angelic acid?
Answer:
260.34g
Explanation:
First, you need to know what angelic acid is comprised of. It is written as C₅H₈O₂.
In order to solve for the mass of 2.6 moles of angelic acid, you need the mass of 1 mole of angelic acid. This can be found by adding the masses from the periodic table, like shown below:
5 carbon atoms = (5)(12.01g) = 60.05g
8 hydrogen atoms = (8)(1.01) = 8.08g
2 oxygen atoms = (2)(16) = 32g
angelic acid = 60.05 + 8.08 + 32 = 100.13g
Then, set up a basic stoichiometric equation and solve. The units should cancel out.
[tex](\frac{2.6mol}{1} )(\frac{100.13g}{1mol} )=260.34g[/tex]
The mass in grams of 2.6 moles of angelic acid is 296.78 g.
Explanation:To find the mass in grams of 2.6 moles of angelic acid, we need to use the molar mass of the compound. The molar mass of angelic acid is the sum of the atomic masses of all the elements present in the compound. According to the chemical formula of angelic acid (C6H10O2), the atomic masses of carbon, hydrogen, and oxygen are 12.01 g/mol, 1.01 g/mol, and 16.00 g/mol respectively.
So, the molar mass of angelic acid can be calculated as:
Molar mass = (6 x atomic mass of carbon) + (10 x atomic mass of hydrogen) + (2 x atomic mass of oxygen)
Molar mass = (6 x 12.01 g/mol) + (10 x 1.01 g/mol) + (2 x 16.00 g/mol)
Molar mass = 72.06 g/mol + 10.10 g/mol + 32.00 g/mol
Molar mass = 114.16 g/mol
The mass in grams of 2.6 moles of angelic acid can be calculated using the following conversion factor:
Mass (g) = Moles x Molar mass
Mass (g) = 2.6 moles x 114.16 g/mol
Mass (g) = 296.78 g
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If 375 grams of CO2 are placed in a vessel whose volume is 34.5 liters at a temperature of 20 degrees celsius, what will the pressure be? PLEASE, ANYONE HELP!
Answer:
the pressure is P = 5,94 atm ≈ 6 atm
Explanation:
Following the equation corresponding to the Ideal Gas Law, it is possible to find the system pressure in the silver problem.
[tex]PV = nRT[/tex]
From this equation, we find the pressure
[tex]P = \frac{nRT}{V}[/tex]
where:
P is the pressure of the gas,
V is the volume of the gas,
n is the amount of substance of gas (also known as number of moles),
R is the ideal, or universal, gas constant.
Now we find the moles of CO2
[tex]n = \frac{g}{PM}[/tex]
We have 375g of CO2 and its molecular weight is 44g/mol
[tex]nCO_{2} = \frac{375g}{44g/mol} = 8,52 mol[/tex]
Using.
R = 0,082[tex]\frac{L . atm}{K . mol}[/tex]
T = 20ºC = 293,15 K
We substitute in the equation
[tex]P = \frac{nRT}{V}\\\\ P = \frac{8,52 mol . 0,082\frac{L.atm}{K . mol} . 293,15K}{34,5 L}\\[/tex]
P = 5,94 atm ≈ 6 atm
Which is not a mineral?
A. copper
B. graphite
C. sugar
D. table salt
Answer:
sugar
Explanation:
its classified as an organic compound, not a mineral
also quizlet said so
Answer: Sugar
Explanation: Sugar classifies as an organic compound and so is not a mineral.
Nitrogen has a proton number of 7, it also hos 7 neutrons What is the nucleon number of nitrogen?
Answer:
Nitrogen has an atomic number of 7
Explanation:
Answer:
14
Explanation:
nucleon number= number of protons+ number of neutrons
Count the number of each type of atom in the equation below, and then balance the equation. Write in
the numbers of atoms and coefficients. Add a 1 if there should be no coefficient.
CS2D +0266) - C02G) + S026)
so-csco
DONE
CS210) +_0269) ►
00269) +
S029)
DONE
) Intro
The balanced equation is given as, 1 CS₂ + 3 O₂ → 1 CO₂ + 2 SO₂
Explanation:
CS₂ + O₂ → CO₂+ SO₂
Atoms Before balancing After balancing
LHS RHS LHS RHS
C 1 1 1 1
S 2 1 2 2
O 2 4 6 2+4=6
First we have to put 2 in front of SO₂, so the number of S atoms becomes equal on both sides, but the number of O- atoms gets increased as 6 on RHS, to balance that we have to put 3 infront of O₂, so that every atom on both sides of the equation gets balanced.
So the balanced equation is
1 CS₂ + 3 O₂ → 1 CO₂ + 2 SO₂
69g of sodium reacts with chlorine to produce sodium chloride. calculate the number of moles of chlorine required to react with exactly with the sodium
Answer:
3 moles of [tex]Cl^{-}[/tex] is needed for [tex]Na^{+}[/tex]to be fully consumed.
Explanation:
For the balanced equation:
[tex]Na^{+} + Cl^{-}[/tex] ⇒ [tex]NaCl[/tex]
First, find the moles of Na corresponding to the 69g used the general definition of mol:
[tex]mol Na^{+} = \frac{69 g}{23 g/mol } = 3mol[/tex]
We observe that the equation is balanced and the stoichiometric ratio between them is 1: 1.
According to this, one mole of Na will react with one mole of Cl.
3 moles of [tex]Cl^{-}[/tex] is needed for [tex]Na^{+}[/tex]to be fully consumed.
Final answer:
To react 69 g of sodium with chlorine to produce sodium chloride, 1.5 moles of chlorine gas are required, following the stoichiometry from the balanced chemical equation 2 Na(s) + Cl₂(g) → 2 NaCl(s)
Explanation:
The student is asking for the number of moles of chlorine needed to react with 69 g of sodium to produce sodium chloride, given the balanced chemical equation:
Balance the Reaction:
2 Na(s) + Cl₂(g) → 2 NaCl(s)
Calculate Moles of Sodium:
First, we need to calculate the number of moles of sodium. The molar mass of sodium (Na) is 22.99 g/mol. Therefore, the number of moles of sodium in 69g is:
moles Na = mass Na / molar mass Na = 69g / 22.99 g/mol = 3 moles (rounded to two significant figures)
Determine Moles of Chlorine:
Using stoichiometry from the balanced equation, 2 moles of sodium react with 1 mole of chlorine. Therefore, if we have 3 moles of sodium, we would need:
moles Cl₂ = moles Na / 2 = 3 moles / 2 = 1.5 moles of Cl₂
Therefore, 1.5 moles of chlorine gas are required to react with 69 g of sodium to produce sodium chloride. This stoichiometry is consistent regardless of the mass of sodium you start with, as long as you're using the correct molar mass to convert grams to moles.
Question 4 (1 point)
In an endothermic reaction products are _
than reactants.
in potential energy and
stable
higher, more
Answer:
In an endothermic reaction, products are higher than reactants in potential energy and less stable
Explanation:
An endothermic reaction is a reaction that needs energy to happen. The energy needed from the endothermic reaction is taken from the system. In this reaction, the reactant will absorb the energy so they will make a product with higher energy.
Since energy moves from a higher potential to lower potential, the product of the endothermic reaction is less stable.
The sum of all the forces acting on an object is called the
force.
A)net
B)total
C)balanced
D)unbalanced
Answer:
c
Explanation:
Answer:
A(net)
Explanation:
how many moles of iron will be produced from 6.20 moles of carbon monoxide reacting with excess iron (III) oxide (FeO3) to produce 11.6 g of iron (Fe)
0.20 moles of iron will be formed in the reaction.
Explanation:
The balanced chemical equation for the reaction between iron (iii) oxide and carbon monoxide to form Fe is to be known first.
the balanced reaction is :
Fe2O3 + 3CO⇒ 2 Fe + 3 CO2
so from the data given the number of moles of carbon monoxide can be known:
3 moles of CO reacted with Fe2O3 to form 2 moles of iron in the reaction.
Number of moles of CO is 6.20 moles
11.6 gm of iron is formed
so the number of moles of iron formed is calculated as
n = mass of iron ÷ atomic weight of iron
= 11.6 ÷ 55.84
= 0.20 moles of iron will be formed when 11.6 gram of iron is produced.
The moles of Iron produced in the chemical reaction has been 0.2 mol.
The moles of product formed and reactant consumed has been given by the stoichiometric values of the balanced chemical equation.
The given balanced chemical equation has been:
[tex]\rm 3\;CO\;+\;Fe_2O_3\;\rightarrow\;2\;Fe\;+\;3\;CO_2[/tex]
Computation for moles of Iron producedThe molar mass of Fe has been 55.85 g/mol.
The mass of Fe produced in the chemical reaction has been 11.6 g.
The moles of Fe produced has been:
[tex]\rm Moles=\dfrac{Mass}{Molar\;mass}\\\\ Moles\;Fe=\dfrac{11.6\;g}{55.85\;g/mol}\\\\ Moles\;Fe=0.20\;mol[/tex]
The moles of Iron produced in the chemical reaction has been 0.2 mol.
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What is the molarity of a KF(aq) solution
containing 116 grams of KF in 1.00 liter of
solution?
Answer:
2.00 M
Explanation:
What occurs in solvation?
A.) Solvent molecules surrounds solute ions.
B.) Ionic compounds are formed
C.) Solute ions separate from solvent molecules.
D.) Solvent molecules bind covalently to solute molecules.
Answer:
Choice A
Explanation:
Solvation describes the surrounding of solute ions by solvent molecules.
Final answer:
Solvation involves the intermolecular interactions of a solute with the surrounding solvent. In the case of ionic solutes, solvent molecules surround each ion and separate it from the rest of the solid. In the case of molecular solutes, each particle of the solute is surrounded by solvent particles, forming a solution. The correct option is A.
Explanation:
Chemically, a solvent will dissolve or "solvate" a solute. Solvation describes the intermolecular interactions of a molecule or ion in solution with the surrounding solvent. In the case of solvation in polar solvents, such as water, solvent molecules surround each ion of the ionic solute and separate it from the rest of the solid. This process is also referred to as hydration. On the other hand, in the case of solvation of a molecular solute like sucrose, each particle of the solute is surrounded by particles of the solvent, forming a solution.
How many grams of magnesium are needed to completely react
with 2.00 mol of O2 in the synthesis reaction that produces
magnesium oxide?
97.22 grams of magnesium is needed.
Explanation:
The molar ratio of Mg to O2 to make MgO is 2:1
Here, we have 2 moles of O2, therefore we need 4 moles of Mg.
1 mol of Mg = 24.305 g
Therefore
4 moles of Mg = 4 [tex]\times[/tex] 24.305 g
= 97.22 g
Hence we need 97.22grams of magnesium are needed to completely reactwith 2.00 mol of O2 in the synthesis reaction that producesmagnesium oxide.
Show a correct numerical setup for calculating the
number of moles of CO2 (gram-formula mass =
44 g/mol) present in 11 grams of CO2.
Final answer:
To calculate the number of moles of CO2 present in 11 grams of CO2, divide the mass of CO2 by the molar mass of CO2.
Explanation:
To calculate the number of moles of CO2 present in 11 grams of CO2, we need to use the molar mass of CO2, which is 44 g/mol. We can set up the calculation as follows:
Number of moles = Mass of CO2 / Molar mass of CO2
Number of moles = 11 g / 44 g/mol
Number of moles = 0.25 mol
Therefore, there are 0.25 moles of CO2 present in 11 grams of CO2.
Which of the following statements is true?
A. The freezing and boiling temperatures of a substance are the same.
B. The freezing and condensation temperatures of a substance are the same.
C. The freezing and melting temperatures of a substance are the same.
D. The freezing, melting, and boiling temperatures of a substance are the same.
The answer is likely to be A
Answer: The awnser us B
Explanation: Because both of the temperatures for condensing and freezing are the same thing 32 degrees.
What is the relationship between mass, distance and gravity?
Answer:
Mass is the measure of the amount of matter in an object. We see that the gravitational force between objects increases as the masses of the objects increase. With distance, we see that the strength of gravity decreases if the distance between two objects increases.
Explanation:
The amount of gravity affecting an object depends on two things: the masses of the objects being attracted and the distance between the objects. Mass is the measure of the amount of matter in an object. ... With distance, we see that the strength of gravity decreases if the distance between two objects increases
Final answer:
Mass, distance, and gravity are interconnected in physics through Newton's law of gravitation.
Explanation:
The relationship between mass, distance, and gravity is described by Newton's law of universal gravitation. This law states that every point mass attracts every other point mass by a force acting along the line intersecting both points. This force is directly proportional to the product of the masses of the two objects and inversely proportional to the square of the distance between their centers.
Mathematically, the force of gravity (F) between two objects with masses m1 and m2 separated by a distance r is given by:
F = G * (m1 * m2) / r^2
where G is the gravitational constant, approximately equal to 6.674 × 10^-11 N m^2/kg^2.
From this equation, we can see that:
1. The force of gravity (F) is directly proportional to the product of the masses (m1 * m2). This means that if the masses of the objects increase, the force of gravity between them also increases.
2. The force of gravity (F) is inversely proportional to the square of the distance (r^2) between the centers of the objects. This means that as the distance between the objects increases, the force of gravity between them decreases rapidly.
A sample of 2.45g aluminum oxide decomposes into 1.3g of aluminum and 1.15g of oxygen. What is the percentage composition of the compound?
Answer:
%[tex]Al = 53.1%[/tex]%
%[tex]O = 46.9[/tex]%
Explanation:
If we know the grams of a chemical compound in a specific reaction, it is possible to know the percentage of each atom that composes it.
For the Aluminum Oxide in this problem, we know its total weight and the grams of each component.
therefore we can determine the percentage ratio of its components through:
For Al
%[tex]Al = \frac{mass of Al}{mass of Aluminium oxide} . 100[/tex]%
% [tex]Al = \frac{1,3 g}{2,45 g} . 100[/tex]%
%[tex]Al = 53.1%[/tex]%
In the same way for oxygen
%[tex]O = \frac{mass of O}{mass of Aluminium oxide} . 100[/tex]%
%[tex]O = \frac{1,5 g}{2,45 g} . 100[/tex]%
%[tex]O = 46.9[/tex]%
What is Delta.S for the reaction N2(g) +O2(g) Right arrow. 2NO? Use Delta.G = 173.3 kJ at 303.0 K and Delta.H = 180.7 kJ. Use Delta.G = Delta.H – TDelta.S.
7.4 J/K
7.4 kJ/K
24.42 kJ/K
24.42 J/K
Answer:
24.42 J/K
Explanation:
i got it right
Answer:
d
Explanation:
what is the molar mass of calcium?
Answer:
Molar mass of calcium is 40,078 g / mol
Explanation:
Molar mass (M) is the ratio of the mass to the mass of the substance and is expressed in grams per mole (g / mol).
The molar mass of a substance corresponds/it is equal to the relative atomic or relative molecular mass with the addition of the unit g/mol.
The relative atomic mass as well as the relative molecular mass are the basis for expressing the molar mass (M), the mass of one mole of a substance.
the 4 types of chemical reactions
Answer:
decomposistion,single replacement,double replacement,and sythesis
Explanation:
nmnbmm
If a lake became too acidic, which of the following describes the best way that scientists could determine how to make the lake more
neutral?
A. Dump a large quantity of a base, such as sodium hydroxide, into the lake.
B. Use samples of the lake water as models for testing the results of adding various chemicals.
C. Siphon off the acidic portions of the lake and leave the rest of the water alone.
D. Double the amount of water in the lake, so the acidity will be diluted.
Answer:
B
Explanation:
well it can be D cause doubling the water wont fix things for the future and may not be done. C wont fix it cause you arent solving the problem jus holding it off and it cant A causing dumping bad stuff into the lake started the problem. Its deff B
If a woman has brown eyes with the recessive allele for blue eyes (Bb), each of her sex cells will have
The correct answer is 50% of her eggs will carry the allele B, and the remaining 50% will carry the allele b.
If a woman has the genotype Bb for eye color, where B represents the dominant allele for brown eyes and b represents the recessive allele for blue eyes, each of her sex cells (eggs or ova) will have one of the two possible alleles, either B or b.
During the process of meiosis, which is the cell division that produces gametes (sex cells) in humans, the two alleles for a particular gene separate and end up in different gametes.
Specifically, in the case of this woman with the genotype Bb:
1. During meiosis, the homologous chromosomes carrying the alleles for eye color will separate, resulting in two different types of gametes (eggs).
2. Half of her eggs will contain the allele B (for brown eyes), and the other half will contain the allele b (for blue eyes).
Therefore, if a woman has the genotype Bb (brown eyes with the recessive allele for blue eyes), each of her sex cells (eggs) will have either the allele B or the allele b, but not both.
In other words, 50% of her eggs will carry the allele B, and the remaining 50% will carry the allele b.
This is known as the law of segregation, which states that during gamete formation, the two alleles for a particular gene separate, and each gamete receives only one of the two alleles.
Draw the structure for 2,4,6-trimethylphenol
Answer:
Attached.
Explanation:
I'm assuming Lewis structure is fine.
Cresol or trimethylhydroquinone, commonly known as 2,4,6-trimethylphenol, is an organic molecule with the chemical formula C9H12O. Because a hydroxyl group (-OH) is attached to a benzene ring, it is classified as a phenol.
The benzene ring serves as the main structural component of 2,4,6-trimethylphenol, which also has three methyl groups (CH) bonded to the carbon atoms at the 2, 4, and 6 positions. The chemical nomenclature, which refers to the exact locations of the substituents on the ring, is influenced by these methyl groups. At position 1, the hydroxyl group is attached to the benzene ring. 2,4,6-trimethylphenol is a phenolic chemical because it contains a hydroxyl group and exhibits some of the characteristics of phenols.
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If you have 5.00 x 10^24 molecules of water how many moles of water would you
have?
Answer:
8.31moles of H2O
Explanation:
Avogadro's hypothesis gives us an excellent understanding that 1mole of any substance contains 6.02x10^23 molecules. This means that 1mole H2O also contains 6.02x10^23 molecules.
Now, if 1 mole of H2O contains 6.02x10^23 molecules
Therefore, Xmol of H2O will contain 5.00x10^24 molecules i.e
Xmol of H2O = (5.00x10^24)/6.02x10^23 = 8.31moles of H2O
A television set changes electrical energy to sound and light energy.In this process, some energy is
Final answer:
In the transformation of electrical energy to sound and light by a television set, some energy is lost as heat due to the inefficiency of the device.
Explanation:
A television set changes electrical energy into sound and light energy. During this energy transformation process, some energy is usually lost as heat. This loss is primarily due to the inefficiency of electrical devices, where not all the incoming electrical energy is converted into the desired forms of energy.
The excess energy frequently dissipates as heat, which is released into the surroundings. This process aligns with the laws of thermodynamics, specifically the second law, which states that energy transformations are never 100% efficient.
What does a magnetic field look like?
Final answer:
Magnetic fields are depicted by magnetic field lines that indicate the direction and strength of the field around a magnet, which can be visualized with compasses or iron filings. The lines form closed loops and originate at the magnet's North pole, looping to the South pole.
Explanation:
Magnetic fields can be described and visualized through the use of magnetic field lines. These lines start at the North pole of a magnet and end at the South pole, forming closed loops that indicate the direction and strength of the magnetic field. To map out magnetic field lines, one might employ a small compass and trace the direction at multiple points around the magnet, or sprinkle iron filings to observe the lines directly. Magnetic field lines have specific properties, such as always forming closed loops and being tangent to the direction of the magnetic field at any given point.
In terms of visual representations, one commonly sees patterns where the field lines emerge from the North pole, loop around to the South pole, and continue through the magnet, indicating continuity. For electric currents, such as in a wire, the direction of the magnetic field can be determined using the right-hand rule, and it can be visualized using a circle of compasses or iron filings that align tangentially to the field lines created by the current.
Real-world examples include the Earth's magnetic field, which resembles the field of a giant bar magnet with a North and South pole, as well as the magnetic fields around solenoids and bar magnets shown through the distribution of iron filings.
The balanced reaction equation for combustion of heptane, C7H16, is
C7H16+11O2⟶7CO2+8H2O
If the reaction produced 34.5 g CO2,
how many grams of heptane were burned?
Answer: m = 11.2 g C7H16
Explanation: First convert the mass of CO2 to moles. Then do the mole ratio between CO2 and C7H16 which is 7:1. Finally convert the moles of C7H16 to the mass of C7H16.
Solution attached.
The grams of heptane were burned is 88.8 grams .
Explanation:The balanced reaction equation for the combustion of heptane, C7H16, is:
C7H16 + 11O2 → 7CO2 + 8H2O
To find out how many grams of heptane were burned, we can use the stoichiometry of the reaction. The molar ratio between heptane and CO2 is 1:7. So, we can set up a simple proportion to solve the problem.
Let 'x' be the mass of heptane:
(34.5g CO2) / (44.01g/mol CO2) = x / (114.22g/mol heptane)
Using this formula, we find that x = 88.8g. Therefore, 88.8 grams of heptane were burned.
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• 24Pu has a half-life of 14 years. If we start with 100 grams of 241Pu how much will remain
after 42 years and how much would have decayed?
Answer:
The amount of sample remain after 48 years is 12.5 g.
Amount of sample decayed = 100 g- 12.5 g = 87.5 g
Explanation:
Given data:
Half life of Pu²⁴¹ = 14 years
Total amount of sample = 100 g
Sample remain after 42 years = ?
Sample decayed = ?
Solution:
First of all we will calculate the number of half lives.
Number of Half lives = T elapsed / half life
Number of Half lives = 42 years / 14 years
Number of Half lives = 3
At time zero = 100 g
At first half life = 100 g /2 = 50 g
At second half life = 50 g/2 = 25 g
At third half life = 25 g/ 2 = 12.5 g
So the amount of sample remain after 48 years is 12.5 g.
Amount of sample decayed = 100 g- 12.5 g = 87.5 g
How would you describe (in general) the Lewis Dots Diagram for a Cation
Answer:
Explanation -
A Lewis electron dot symbol is a representation of the valence electrons around an atom that uses dot around the symbol of the element. Cations are formed when atoms lose electrons represented by fewer Lewis dots.
The Lewis Dot Diagram for a cation is a representation of the electron configuration after an atom loses one or more electrons. It shows the symbol of the atom with brackets and the number of valence electrons that have been removed.
Explanation:The Lewis Dot Diagram for a cation is a representation of the electron configuration of the cation. In general, cations are formed when an atom loses one or more electrons, resulting in a positive charge. The Lewis Dot Diagram for a cation shows the symbol of the atom with brackets and the number of valence electrons that have been removed. For example, the Lewis Dot Diagram for a sodium cation (Na+) would show the symbol Na with brackets and the number 10 inside the brackets, indicating that one electron has been removed.
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PLS HELP: CHEMISTRY
How many C8H18 molecules are in 0.83 mL of
C8H18, the mass of which is 0.68 g?
Answer in units of molec.
Answer:
3.59x10^21 molecules
Explanation:
1mole of a substance contains 6.02x10^23 molecules.
Therefore, 1mole of C8H18 will also contain 6.02x10^23 molecules
1mole of C8H18 = (12x8) +(18x1) = 96 + 18 = 114g.
1mole (i.e 114g) oh C8H18 contains 6.02x10^23 molecules.
Therefore, 0.68g of C8H18 will contain = (0.68 x 6.02x10^23)/114 = 3.59x10^21 molecules
To find the number of C8H18 molecules in 0.83 mL of C8H18 with a mass of 0.68 g, calculate the number of moles based on the molar mass and then multiply by Avogadro's number to get approximately 3.58 x 10^21 molecules.
To calculate the number of C8H18 molecules in 0.83 mL of C8H18 with a mass of 0.68 g, we can follow these steps:
Find the molar mass of C8H18. The molar mass of C8H18 (octane) is 114.23 g/mol.
Calculate the number of moles of C8H18 using the mass provided. Number of moles = mass / molar mass = 0.68 g / 114.23 g/mol.
Convert the number of moles to molecules using Avogadro's number (6.02 x 1023 molecules/mol).
The calculation will be as follows:
Number of moles = 0.68 g / 114.23 g/mol ≈ 0.00595 moles
Number of molecules = 0.00595 moles x 6.02 x 1023 molecules/mol ≈ 3.58 x 1021 molecules
The science student wants to find the mass of a wooden block. What is its appropriate name and use of the equipment
Answer:
A measuring balance can be used to find the mass of a wooden block.
Mass can simply be defined as the amount of matter which is present in an object. The mass of wooden objects is measured with a measuring balance such as the triple beam balance.
The object to be measured is placed in the left side of the balance. Then the mass is leveled off.