To calculate the mass of the product FeCl₃, we will need to do the following steps:
1 - Calculate the molar masses of Cl₂ and FeCl₃.
2 - Calculate the number of moles of Cl₂ in 5g of it.
3 - Calculate the number of moles of FeCl₃ given the stoichiometry of the reaction.
4 - Calculate the mass of FeCl₃ for the calculatd number of moles.
(we will use M for molar mass, m for mass and n for number of moles)
1 - The molar masses can be calculated using the molar masses of the elements in each compound:
[tex]\begin{gathered} M_{Cl_2}=2\cdot M_{Cl} \\ M_{Cl_2}=2\cdot35.453g\/mol \\ M_{Cl_2}=70.906g\/mol \end{gathered}[/tex][tex]\begin{gathered} M_{FeCl_3}=1\cdot M_{Fe}+3\cdot M_{Cl} \\ M_{FeCl_3}=(1\cdot55.845+3\cdot35.453)g\/mol \\ M_{FeCl_3}=162.204g\/mol \end{gathered}[/tex]2 - Now, we need to calculate the number of moles of Cl₂, so we will use the molar mass of Cl₂.
So, for the number of moles of Cl₂, we have:
[tex]\begin{gathered} M_{Cl_{2}}=\frac{m_{Cl_2}}{n_{Cl_{2}}} \\ n_{Cl_2}=\frac{m_{Cl_2}}{M_{Cl_{2}}}=\frac{5g}{70.906g\/mol}=0.070515\ldots mol \end{gathered}[/tex]3 - Now, we need to apply the stoichimetry. We can use rule of three for this.
From the balanced equation, we see that for each 3 Cl₂ that react, we will produce 2 FeCl₃.
So, we know that we actually have 0.070515...mol of Cl₂, so we use the rule of three to see how many moles we will produce of FeCl₃:
FeCl₃ --- Cl₂
2 --- 3
n --- 0.070515...mol
So, we have the equation:
[tex]\begin{gathered} \frac{2}{n}=\frac{3}{0.070515\ldots mol} \\ 2\cdot0.070515\ldots mol=3n \\ 0.141031\ldots mol=3n \\ 3n=0.141031\ldots mol \\ n=\frac{0.141031\ldots mol}{3} \\ n=0.047010\ldots mol \end{gathered}[/tex]And this is the number of moles of FeCl₃, so we can indicate this with the subscript:
[tex]n_{FeCl_3}=0.047010\ldots mol[/tex]4 - Finally, we will use now the molar mass of FeCl₃ to calculate the mass of 0.047010...mol of FeCl₃. The equation is the same as we used for Cl₂, but we will find the mass instead of the number of moles:
[tex]\begin{gathered} M_{FeCl_3}=\frac{m_{FeCl_3}}{n_{FeCl_{3}}} \\ m_{FeCl_3}=n_{FeCl_3}\cdot M_{FeCl_3}=0.041010\ldots mol\cdot162.204g\/mol=7.6253\ldots g \end{gathered}[/tex]So, the mass is 7.6253...g, but since we started with the mass of 5g, we have only one significant figure, so if we strickly consider the number of significant figures, we need to end up with only one, so:
[tex]m_{FeCl_3}\approx8g[/tex]So, the mass that we will produce if all the 5 grams react is 7.6253...g or, approximately 8g.
The specific heat of a certain type of cooking oil is 1.75 J/(g-°C). How much heat energy is needed to raise the temperature of 2.74 kg of this oil from 23 °C to 191 °C?
The amount of heat energy needed to increase a substance's temperature by 1°C per unit mass is known as its specific heat capacity (or 1K). joule per kilogram per kelvin is the SI unit (Jkg-1K-1).
so,
805,560 Joules heat energy is needed to raise the temperature from 23 °C to 191 °C.
What is specific heat capacity and why is it important?A substance's potential to hold heat is indicated by its specific heat capacity. This substance size reflects the amount of heat required to raise a specific volume of a substance's temperature by one Kelvin. It is a distinguishing feature of every substance and is useful for material identification.The amount of heat energy needed to increase a substance's temperature by 1°C per unit mass is known as its specific heat capacity (or 1K). joule per kilogram per kelvin is the SI unit (Jkg-1K-1).The mass, temperature change, and solid's nature all affect heat capacity.Use the formula:
Q = cMΔT
where
Q = heat energy needed for that material to get desired temperature change (in Joules)
M = mass (in grams) so you have to convert from kilograms.
c = specific heat constant for the material being heated [in /(grams oC)]
ΔT = change in temperature (in oC)
Q = (1.75)(2.74 x 1000)(191 - 23) = (1.75)(2740)(168) = 805,560 Joules
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Q = cMΔT
where
Q is the amount of heat energy required to change the material's temperature.
You must convert from kilograms since M is mass (in grams).
c = the material's specific heat constant [in grams per degree Celsius]
T stands for temperature change (in oC)
Q is equal to (1.75 x 2.17 x 1000) (191 - 23) = (1.75 x 2170 x 168) = 637,980 Joules.
What does "specific heat capacity" mean?
In thermodynamics, a substance's specific heat capacity, commonly referred to as massic heat capacity, is calculated by dividing its heat capacity by its mass in a sample.
particular heat capacity's mathematical formula?
Delta T = Q=mc
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Why D is the correct answer
Explanation:
Because during the phase transformation the pressure inside the closed container remains the same and that's a fact ay
What is the amount of valence electrons in an atom equivalent to?The amount of protons an atom hasThe group the atom is locatedThe period the atom is locatedThe amount of electrons an atom has
ANSWER
The amount of valence electron in an atom is equivalent to the group the atom is located
EXPLANATION
Valency is define as the combining power of an element. Valence electrons are electrons located at the outer most shell of an element.
Valence electrons tell us the group a particular element belongs to and also the chemical properties of the element.
For example, sodium atom
Sodium has the below electronic configuration
[tex]\text{ 1s}^2\text{ 2s}^2\text{ 2p}^6\text{ 3s}^1[/tex]The structure above represents a sodium atom. The structure contains a single electron at the outer most shell of the atom. The single electron is called the valence electron of sodium. Hence, sodium belongs to group 1
Therefore, the amount of valence electron in an atom is equivalent to the group the atom is located
copper, x-rays of frequency 2.74 × 10^19 Hz
are emitted. What is the wavelength of these
x-rays?
Answer in units of pm.
The wavelength of the x-rays is 1.094 * 10⁻⁵ pm.
What is the relationship between the frequency and wavelength of a wave?The frequency of a wave is the number of complete oscillations completed by the wave per second. Its unit is Hertz.
The wavelength of a wave is the distance between successive points in phase in the wave. It is measured in units of meter.
The relationship between the wavelength and frequency of a wave is given below.
Wavelength = velocity of the wave / frequency
The frequency of X-rays = 3.0 * 10⁸ m/s
frequency of the wave = 2.74 × 10¹⁹ Hz
Wavelength = (3.0 * 10⁸ m/s) / (2.74 × 10¹⁹ Hz)
wavelength = 1.094 * 10⁻¹¹ m
wavelength = 1.094 * 10⁻⁵ pm.
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Oxidation number of each element in the compound (NH4)2CrO4
Answer:
the oxidation number of N in (NH4)2CrO4 is -3. the oxidation number of O in (NH4)2CrO4 is -2. the oxidation number of Cr in (NH4)2CrO4 is +6. the oxidation number of H in (NH4)2CrO4 is +1
hope i helped <3
N has an oxidation number of -3, O has an oxidation number of -2, and Cr has an oxidation number of +6 in the compound (NH4)2CrO4. The H in (NH4)2CrO4 has an oxidation number of 1
What is oxidation number?Oxidation number is defined as how many electrons a given atom or ion has either gained or lost when compared to a neutral atom. Any free element's oxidation number is always zero. The meaning was expanded to cover additional reactions in which electrons are lost, regardless of whether oxygen was present, since the substance loses electrons when it is oxidized.
In the case of a monatomic ion, the oxidation number is always the same as the ion's charge. The name of the compound is ammonium chromate which has oxidation number both in positive as well as negative charge electrons.
Thus, N has an oxidation number of -3, O has an oxidation number of -2, and Cr has an oxidation number of +6 in the compound (NH4)2CrO4. The H in (NH4)2CrO4 has an oxidation number of 1.
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Predict the missing component
in the nuclear equation.
175/71 Lu → 4/2 He + X
Answer:
B
Explanation:
Which of the following elements would you expect to have the greatest electron affinity? He, K, Co, S, Cl
The electron affinity of the given elements in question is Cl>S>Co>K>He, in the order of highest to lowest.
What is electron affinity?
When an electron is added to a neutral atom to create a negative ion, the energy of the atom changes (in kJ/mole). This is how electron affinity is defined. Or, the probability that a neutral atom will capture an electron.
The electron affinity decreases when we go left to right in the periodic table. But, there is a exception that the nobel gases has extremely low electron affinity. Among the given elements He is nobel gas so it has very low electron affinity and for the other elements we will check which element is located in left most position in periodic table that element has the highest electron affinity.
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Scientists discover a species that is unicellular and has chloroplasts. What could it be
Answer: dinophyte
Explanation: its a type of protist. it is unicellular and has chloroplasts
Scientists discover a species that is unicellular and has chloroplasts. It could be a dinophyte.
A single-celled eukaryotic group (Protists) called a dinophyte makes up the phylum Dinoflagellates. They possess chloroplasts and are single-celled.
What are Protists?Any eukaryotic organism that is neither an animal, plant, nor fungus is referred to as a protist. Eukaryotic organisms are those whose cells contain a cell nucleus. Even as other eukaryotes are not present, protists do not constitute a natural group or clade, despite the likelihood that they share a common ancestor (the last eukaryotic common ancestor). Consequently, some protists may have a closer relationship with plants, animals, or fungi than they do with other protists. Protist is a biological category that is only used for practical purposes, much like the groups of algae, invertebrates, and protozoans. Others define a protist as any eukaryotic unicellular microbe. Protistology is the field of study that focuses on protists.To learn more about Protists, refer to:
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A mixture of KCl and KNO3 is 44.20% potassium by mass. The percent of KCl in the mixture is closest to
Step-by-step explanation:
Assuming a basis of 100 grams
composition of Potassium = 44.2%
composition of potassium = 0.442
mass of potassium = 0.442 x 100g
Mass of potassium= 44.2 grams
mole of potassium = reacting mass / molar mass
Molar mass of potassium = 39.1 gram/ mol
Mole of potassium = 44.2 / 39.1
Mole of potassium = 1.13 moles
mole of potassium chloride + mole of potassium nitrate = mole of potassium
n(KCL) + n(KNO3) = n(k)
since mole (n) = m/M.M
Then we have,
m(KCL)/M.M(KCL) + m(KNO3)/M.M (KNO3) = 1.13
M.M (KCL) = 39.1 + 35.5
M.M (KCL) = 74.6 gram/mol
M.M (KNO3) = 39.1 + 14 + 3(16)
M.M (KNO3) = 39.1 + 14 + 48
M.M (KNO3) = 101.1 gram/mol
Let the mass of KCL be x
Let the mass of KNO3 be y
Assuming the total mass of the mixture is 100g
x + y = 100 ---------- equation 1
x/74.6 + y/101.1 = 1.13 ---- equation 2
From the first equation, make x the subject of the formula
x = 100 - y
100- y / 74.6 + y/101.1 = 1.1.3
1.355(100 - y) + y = 1.13 * 101.1
135.52 - 1.355y + y = 114.243
Collect the like terms
-1.355y - y = 114.243 - 135.52
-0.355y = -21.277
Divide both sides by -0.355
-0.355y/-0.355 = -21.277/-0.355
y = 59.9grams
y is 60 grams approximately
Recall, y is the mass of KNO3
From the first equation
x + y = 100
For the reaction: 2 A (g) + B (s) ⇌ 2 C (s) + D (g) Kp = 8210
At 298 K in a 10.0 L vessel, the known equilibrium values are as follows: 0.021 atm of A, 0.22 mol of B, and 10.5 mol of C. What is the equilibrium partial pressure of D?
Answer:D
Explanation:
The equilibrium partial pressure of D is 0.362atm.
2A(g) + B(s) <==> 2C(s) + D(g)
The pressure that a gas, in a mixture of gases, would exert if it alone occupied the whole volume occupied by the mixture is called partial pressure of the gas.
In the equilibrium expression, we ignore solids as they are considered to have a value of unity. Thus, we can write the equilibrium expression for the above reaction as:
K = (PD) / (PA)²
where, K = Partial pressure equilibrium
PD = Partial pressure of gas D
PA = Partial pressure of gas A
Kp = 8210
PA = 0.021 atm
8210 = PD / (0.021)²
PD = 8210 × (0.021)²
PD = 0.362 atm.
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a graduated cylinder contains 25.8 ml of water.Due drops 2 glass marbles weighting 6.5 g into the cylinder.Thew new water level reads 27.2 ml what is the volume of the marbles.What is the density of the marbles
According to this question, a graduated cylinder contains 25.8 mL of water. 2 glass marbles weighing 6.5 g was dropped into the cylinder. The new water level reads 27.2 mL.
This means that the volume of the marbles can be calculated as follows:
27.2mL - 25.8mL = 1.4mL
The volume of the marbles is 1.4mL.
Density is a measure of the mass of matter contained by a unit volume. The density can be calculated by dividing the mass by the volume as follows:
Density = 6.5g ÷ 1.4mL = 4.64g/mL
The density of the marble is 4.64g/mL.
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What is the pH of a 1.63 M solution of methylamine?
Report your answer to 2 decimal places.
The pH of the 1.63 M solution of methylamine is 10.56.
What is the pH of the solution?
The pH of the 1.63 M solution of methylamine is calculated from the equation of the dissociation reaction as follows:
H₃CNH₂ (aq) + H₂O (l) ---> H₃CNH₃ (aq) + OH⁻ (aq)
pKb of H₃CNH₂ = 3.66
Kb of H₃CNH₂ = 10⁻³°⁶⁶ = 2.19 * 10⁻⁴
The [OH¯] is calculated using the Kb expression:
Kb = [OH⁻] * [H⁺] / [HA}
[OH⁻] = [H⁺] = x
Kb = x² / (1.63 - x)
Assuming is x <<< 1.63, x is negligible and the denominator = 1.63
x = √(2.19 * 10⁻⁴ x 10⁻¹¹ * 1.63)
x = 3.57 * 10⁻⁴
pOH = -log (3.57 * 10⁻⁴)
pOH = 3.44
pH = 14 - 3.44
pH = 10.56
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Calculate the molarity of a carbonic acid solution given the following titration results: 47.00 mL of the carbonic acid solution was neutralized to a phenolphthalein endpoint with 23.82 mL of 0.1250 M ammonium hydroxide.
To know the molarity of carbonic acid when titrated with ammonium hydroxide. We use [tex]M_{1} V_{1} =M_{2} V_{2}[/tex] formula and hence the molarity of carbonic acid is 0.063M.
What is titration?Titration is an experimental technique in which the molarity of unknown solution is calculated using other solution whose molarity is known. To know the end point we use phenolphthalein as indicator.
Mathematically,
[tex]M_{1} V_{1} =M_{2} V_{2}[/tex]
where,
[tex]M_{1}[/tex]=Molarity of carbonic acid
[tex]M_{2}[/tex]=Molarity of ammonium hydroxide
[tex]V_{1}[/tex]=Volume of carbonic acid
[tex]V_{2}[/tex]=Volume of ammonium hydroxide
Substituting all values
[tex]M_{1}[/tex]=(0.125×23.8)÷47.00
[tex]M_{1}[/tex]=0.063M
Thus the molarity of carbonic acid is 0.063M
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Arrange the following elements in order of decreasing atomic size.
Rank the atoms from the largest to smallest. To rank items as equivalent, overlap them
The arrangement of the in order of decreasing atomic size is as follows:
K > Al > P > Cl > ArWhat is the atomic size of atoms?The atomic size of an atom is the diameter of the atom and is calculated as half the distance between the nuclei of two covalently-bonded nuclei of the atom.
The atomic size of elements increases down a group but decreases across a period.
The reason for this trend is that, on going down a group, an extra electron shell is added to the element below. However, across a period, the electron shell remains the same whereas the size of the positive nuclear charge increases, therefore, the atomic size of atoms in the same period decreases from left to right across the period.
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Complete question:
Arrange the following elements in order of decreasing atomic size.
Rank the atoms from the largest to smallest. To rank items as equivalent, overlap them: Al, Cl, Ar, P, and K.
Which has the incorrect name-formula combination? A) Cobalt(II) chlorite - Co(CIO2)2 B) Iron(II) chlorate - FECIO4 C) Manganese(II) perchlorate - Mn(CIO4)2 D) Chromium(III) hypochlorite - Cr(CIO)3
The incorrect name-formula combination is FeCIO₄ - Iron(I) perchlorate; option B.
What is the IUPAC nomenclature of the given compounds?The IUPAC nomenclature of naming compounds refers to the convention of naming compounds using the oxidation states of the elements present in the compound.
The IUPAC nomenclature of the given compounds is given below as follows:
A. Co(CIO₂)₂ - Cobalt(II) chlorite; the oxidation state of cobalt is +2
B. FeCIO₄ - Iron(I) perchlorate; the formula of the compound is wrong because iron does not exist in the +1 state
C)Mn(CIO4)₂ - Manganese(II) perchlorate; the oxidation state of manganes is +2
D) Cr(CIO)₃ - Chromium(III) hypochlorite ; the oxidation state of chromium is +3
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Not a timed or graded assessment. Quick answer = amazing review :)
We have this reaction:
C + O2 ===> CO2
The compounds on the left of the arrow are the reactants, the ones on the right are called products.
Answer: Carbon and Oxygen are reactants
a balloon has a volume of 1.20 L at 24.0 C. The balloon is heated to 48.0 C. Calculate the new volume of the balloon.
Answer
To solve this excescise we use the ideal gas equation:
[tex]P.V=n.R.T[/tex]Where:
P is the pressure of the gas
V is the volume
T is the temperature
R is the ideal gas constant
n is the number of moles
As the balloon is a closed recipient n is the same in state 1 (T: 24°C) and state 2 (T: 48°C).
R is a constant so also remains the same.
The pressure is also a constant in this case as the only thing that we do to the balloon is heat it.
So therefore:
[tex]\frac{V_1}{T_1}=\frac{V_2}{T_2}=\frac{n.R}{P}[/tex]Now we calculate the volume at 48°C (V2):
[tex]V_2=\frac{V_{1.}T_2}{T_1}=\frac{1.2L.48\degree C{}}{24\degree C}=2.4L[/tex]As we can see as the temperature rises the volume of the gas increases because the molecules have more kinetic energt and they remain farther apart.
The answer then is the new volume of the balloon is 2.4L
How many moles of C₂H5OH
are there in 45.0 mL of 0.250 M
C₂H5OH?
Answer:
no. of moles = 0.0113
Explanation:
To calculate the number of moles of a substance given its concentration and volume, we can use the following formula:
[tex]\boxed{\mathrm{No. \ of \ moles = Concentration \times \frac{Volume}{1000}}}[/tex],
where concentration is mole/dm³ or M, and volume is in cm³ or ml.
In this question, we are told that:
• concentration = 0.250 M
• volume = 45.0 ml
Substituting these values into the formula above, we get:
No. of moles = [tex]0.250 \times \frac{45.0}{1000}[/tex]
= [tex]0.250 \times 0.045[/tex]
= 0.01125
[tex]\approx[/tex] 0.0113 (3 s.f.)
Therefore, the number of moles of C₂H₅OH is 0.0113.
The 0.0112 moles of C2H5OH are present in the 0.250 M solution of C2H5OH.
What is a mole?
Mole is used as a concentration unit in chemistry terms. One mole is equal to the mass of the given compound which is divided by the molar mass of the same compound.
Given:
M= 0.250M ( M stands for molarity)
Volume = 45.0 ml
The molar mass of C2H5OH = 46.07 g/mol
Now, we use molarity formula M = Moles of the substance/volume in liter
Let say moles = x
Units of M = mol/L
Therefore, units of volume need to be converted in to Liters = 1L = 1000ml
By using molarity equation, X= 45.0*0.250/1000 = 0.0112 moles
Hence, the required number of moles of C2H5OH = 0.0112 moles.
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metric preferred to write 5.8 * 10 to -3 g
Since the number is 5.8*10^-3 g, the negative symbol in front of the power of 3 means that there are 3 0's in front of the real number, in standard notation, therefore we will add these 3 zeros to the number
0.0058 grams, and if we multiply it by 1000 we will end up with 5.8 mg, letter C
An excess of chromium metal is added to 500.0 mL of a 0.915 M AgNO3solution in a constant-pressure calorimeter. As a result of the reactionCr(s) + 2 AgNO3(aq)Cr(NO3)(aq) + 2 Ag(s)the temperature rises from 19.3 °C to 55.9 °C. Based on your previoustwo answers, calculate reaction (in J).Please help I don’t understand how i got it wrong :(
The enthalpy of the reaction is -164 kJ/mol.
What is the enthalpy of reaction?We know that the reaction that occurs between the chromium metal and the acid is an exothermic reaction thus there is an increase in the temperature of the system.
Number of moles of the silver nitrate solution is obtained from;
Volume * concentration
500/1000 L * 0.915 M = 0.46 moles
We can now assume that the density of the solution is 1 g/mL hence the mass of the solution is 500g. Let the specific heat capacity of the solution be 4.18 J/Kg/°C.
Then;
H = mcdT
H = Heat lost in the reaction
m = mass of the solution
c = specific heat capacity
dT = temperature change
H = 500 * 4.12 * ( 55.9 - 19.3)
= 75.4 kJ
The heat of reaction = 75.4 kJ/0.46 moles
= -164 kJ/mol
Let us recall that the negative simply means that heat was lost in the reaction.
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What is the mass percentage of carbon in 5.00g of sucrose? 50.00g of sucrose? 500.0g of sucrose?
Because amount has no effect on mass percentages, the mass percentage of carbon in 5, 50, and 500 g of sucrose is 42.1 %
The mass:
It also represents the body's inertia, or resistance to acceleration (change in velocity) when a net force is applied. The mass of an object dictates the strength of its gravitational attraction to other bodies.
The kilogram is the SI base unit of mass (kg). Mass is not the same as weight in physics, despite the fact that mass is frequently calculated by measuring the object's weight using a spring scale rather than a balance scale and comparing it directly with known masses. Because of the reduced gravity, an object on the Moon would weigh less than it does on Earth, yet it would still have the same mass.
Molecular formula of sucrose is C12 H22 O11
Molar mass of Sucrose , C12 H22 O11 is = ( 12 x 12 ) + ( 22 x 1 ) + ( 11 x 16 ) g/mol
= 342 g/mol
The molar mass of Carbon is 12 g/mol
342 g of C12 H22 O11 contains 12 x 12 g of C
5 g of C12 H22 O11 contains Y g of C
Y = ( 12x12x 5 ) / 342
= 2.105 g of C
mass % of C = (mass of C / mass of sucrose ) x 100
= (2.105 / 5 ) x 100
= 42.1 %
342 g of C12 H22 O11 contains 12 x 12 g of C
50.0 g of C12 H22 O11 contains Y g of C
Y = ( 12x12x 50 ) / 342
= 21.05 g of C
mass % of C = (mass of C / mass of sucrose ) x 100
= (21.05 / 50 ) x 100
= 42.1 %
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Calculate the standard enthalpy change for the reaction at 25 ∘ C. Standard enthalpy of formation values can be found in this list of thermodynamic properties. 2CH3OH(g)+3O2(g)⟶2CO2(g)+4H2O(g)
The enthalpy of the reaction is obtained as -430.22 kJ/mol
What is the enthalpy change?The enthalpy change refers to the energy that is lost or gained in the reaction. Let us now look at the standard enthalpies of formation of the reactants and the products.
Standard enthalpy of formation of gaseous water = -241.82 kJ/mol
Standard enthalpy of formation of gaseous carbon dioxide = -393.5 kJ/mol
Standard enthalpy of formation of gaseous methanol = -205.10 kJ/mol
Standard enthalpy of formation of gaseous oxygen = 0 kJ/mol
Hence;
Using the formula;
Enthalpy of formation of the products - Enthalpy of formation of the reactants
ΔH = [(-393.5 ) + (-241.82)] - [(-205.10) + 0]
ΔH = (-635.32) + 205.10
ΔH = -430.22 kJ/mol
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Corn oil, ice, and ethanol are mixed in the same container. What will be the order of the liquids once they settle out from top to bottom ? A. corn oil, ice, ethanol B. ethanol, ice, corn oil C. ice, ethanol, corn oil D. corn oil, ethanol, ice
The order of the liquids will depend on the density of each of them. The densest will go to the bottom of the container, the least dense will be on top.
Let's see what the density of each of the substances is, let's assume that we are at room temperature.
Ice density = 0.917g/cm^3
Corn oil density =0.925g/cm^3
Ethanol density = 0.789g/cm^3
The order of density from lowest to highest is:
Ethanol < Ice < Corn oil
This will be the order from top to bottom, so the answer will be:
B. ethanol, ice, corn oil C
Name something you use in your home that could be considered an acidic, basic, and neutral solution. Use properties of acids and bases to tell why do you think the solutions you chose could be considered acidic, basic, or neutral.
Acidic solution I use: Lemon Juice (Citric acid)
I know this is acidic because it is sour in taste just like all other acids.
Basic solution I use: Handwash
I know this is basic because it is soapy and slippery in nature, and it dissolves oil and grease.
Neutral solution I use: Water
I know this is neutral because it has equal number of H+ and OH- ions.
What are Acids and Bases?An acid is any hydrogen-containing substance that has the ability to donate a proton (hydrogen ion) to another chemical. In order to accept a hydrogen ion from an acid, a molecule or ion must be a basic.The pH scale, where pH stands for "potential of hydrogen," can be utilized to determine the numerical value of a substance's level of acidity or basicity. How acidic or basic a substance is, that can be determined using the pH scale, which is the most used and reliable method. From 0 to 14, on a pH scale, a chemical can range from being the most acidic to the most basic.Using litmus paper is a further method of determining an object's acidity or basicity.Litmus paper comes in two colors, red and blue, and can be employed to distinguish between acids and bases. In an acidic environment, blue litmus paper turns red, and in an alkaline or basic environment, blue litmus paper turns red.To learn more about Acids and Bases, refer to:
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how could armondo test how curves in a river affect the speed of the river
Armondo could test how curves in a river affect the speed of the river as the speed of the water outside of a bend increases as a river rounds the bend. The water's velocity, however, diminishes as it approaches the interior of the curve.
A fantastic illustration of how water can alter the contour of the land is a meandering river. A river seldom turns when it is bordered by sheer rock, but it will do so when it opens up in broad valleys. Water will flow more swiftly and destroy the ground faster outside the river. Over time, it will curve too much and slow down.
To simulate a meandering river, use a stream table. The speed of the water outside of a bend increases as a river rounds the bend. The water's velocity, however, diminishes as it approaches the interior of the curve. A bar of deposited silt, like this one, is created as a result of the reduction in velocity.
The velocity of a river is the rate at which water flows through its course. Numerous elements, such as the channel's form, the slope's grade, the amount of water carried by the river, and the amount of friction brought on by jagged edges in the riverbed, all affect a river's speed.
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In its native state, which element has bonds between many cations and a sea of valence electrons?
O He
O CI
O Zn
Ο Ν
Answer: The correct answer is C. Zn
Explanation: Zn in its native state has bonds between multiple cations and a sea of valance electrons.
What is the density of a sample if its mass is 44.3g and its volume is 22.1cm?
Answer:
about 2 g/cm
Explanation:
D = M/V
D = 44.3/22.1
D ≈ 2
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Now that you have learned to balance equations using the models on the simulation. See if you can balance the(These are not found in the sim). Balance the reactions given
1)
Na3PO4 + H2SO4 => Na2SO4 + H3PO4
We must have the same number of atoms on both sides.
We start with Na,
2 Na3PO4 + H2SO4 =>3 Na2SO4 + H3PO4 (6 Na on both sides)
Then we proceed with P,
2 Na3PO4 + H2SO4 =>3 Na2SO4 +2 H3PO4 (2 P on both sides)
After that, we continue with S,
2 Na3PO4 + 3 H2SO4 =>3 Na2SO4 +2 H3PO4 (3 S)
The number of H and O are solved.
Answer: 2 Na3PO4 + 3 H2SO4 =>3 Na2SO4 +2 H3PO4
Predict the products for each of the following reactions. Write the molecular equation, the complete ionic equation, and the net ionic equation. Classify the reactions in as many ways as you can.
a. Aqueous copper (II) chloride is added to aqueous silver nitrate.
The molecular equation of the reaction of copper chloride and aqueous silver nitrate:
CuCl₂ (aq) + 2 AgNO₃ (aq) → Cu(NO₃)₂ (aq) + 2AgCl (s)
The net ionic equation will be:
2Ag⁺(aq) + 2Cl⁻(aq) → 2AgCl(s)
What are the net ionic equations?The net ionic equation can be described as an equation that represents only those elements, compounds, or ions that directly participated in that particular chemical reaction.
The balanced chemical equation reaction of copper chloride and aqueous silver nitrate:
CuCl₂ (aq) + 2 AgNO₃ (aq) → Cu(NO₃)₂ (aq) + 2AgCl (s)
The complete ionic equation for the reaction can be represented as follows:
Cu²⁺(aq) + 2Cl⁻(aq) + 2Ag⁺(aq) + 2NO₃⁻ → Cu²⁺ (aq) + 2NO₃⁻(aq) + 2AgCl(s)
In the ionic equation, the copper and nitrate ions appear unchanged on both sides of the equation. When we mix the two solutions, the copper and nitrate ions do not participate in the reaction. So copper and nitrate ions can be eliminated from the ionic equation.
2Ag⁺(aq) + 2Cl⁻(aq) → 2AgCl(s)
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Calculate the number of grams of glucose (C6H12O6) that would need to be dissolved to a total volume of 1.5L to get a 15.3% (w/v) solution
ANSWER
The mass of glucose in grams is 230 grams
EXPLANATION
Given information
The total volume of the solution = 1.5L
Follow the steps below to find the mass of glucose
Step 1: Convert the volume of the solution from L to mL
According to the standard conversion, 1L is equivalent to 1000mL
Let x represents the volume of the solution in mL
[tex]\begin{gathered} \text{ 1L }\rightarrow\text{ 1000mL} \\ \text{ 1.5L }\rightarrow\text{ xmL} \\ \text{ Cross multiply} \\ \text{ 1L }\times\text{ xmL = 1000mL }\times\text{ 1.5L} \\ \text{ Isolate x} \\ \text{ xmL = }\frac{1000mL\times\text{ 1.5L}}{1L} \\ \text{ x = }\frac{1000\times1.5\cancel{L}}{1\cancel{L}} \\ \text{ x = 1500mL} \end{gathered}[/tex]Hence, the volume of the solution in mL is 1500mL
Step 2: Find the mass of the glucose in grams
[tex]\begin{gathered} \text{ The mass of glucose = }\frac{15.3}{100}\times\text{ 1500} \\ \text{ The mass of glucose = 0.153 }\times\text{ 1500} \\ \text{ The mass of glucose = 229.5 grams} \end{gathered}[/tex]Hence, the mass of glucose in grams is 229.5 grams