Answer:
[tex]m_{CuFeS_2}=1273.8gCuFeS_2[/tex]
Explanation:
Hello,
In this case, the set of chemical reactions are shown below:
(1) 2 CuFeS₂ + 3 O₂ ----> 2 CuS + 2 FeO + 2 SO₂
(2) 2 FeO + SiO₂ ----> 2 FeSiO₃
(3) 2 CuS ----> Cu₂S + S
(4) Cu₂S + S + O₂ ----> 2 Cu + 2 SO₂
In such a way, the pennies are assumed to be 100% copper, and each penny has about 3.0 g of copper, so based on the 4th reaction, we compute moles of Cu₂S and pass through until the 1st reaction as shown below:
[tex]n_{Cu_2S}=100pennies*\frac{3.0gCu}{1penny}*\frac{1molCu}{63.5gCu}*\frac{1molCu}{2molCu} \\n_{Cu_2S}=2.36molCu_2S[/tex]
Now, from the 3rd reaction we compute the moles of CuS:
[tex]n_{CuS}=2.36molCu_2S*\frac{2molCuS}{1molCu_2S}=4.72molCuS[/tex]
2nd reaction is needless, so we proceed to compute CuS's theoretical amount since the 4.72 mol of CuS are said to be actually obtained (real amount) as shown below:
[tex]n_{CuS}^{theoretical}=\frac{n_{CuS}^{real}}{Y}=\frac{4.72molCuS}{0.68} \\n_{CuS}^{theoretical}=6.94molCuS[/tex]
Now, we develop the shown-below stoichiometric relationship between CuS and the chalcopyrite to compute the required amount to be mined in grams, for example
[tex]m_{CuFeS_2}=6.94molCuS*\frac{2molCuFeS_2}{2molCuS}*\frac{183.54gmolCuFeS_2}{1molCuFeS_2} \\m_{CuFeS_2}=1273.8gCuFeS_2[/tex]
Best regards.
Write a balanced chemical equation for the synthesis of ammonia from hydrogen and nitrogen gas
The gas phase decomposition of phosphine at 120 °C PH3(g) 1/4 P4(g) + 3/2 H2(g) is first order in PH3 with a rate constant of 1.80×10-2 s-1. If the initial concentration of PH3 is 3.16×10-2 M, the concentration of PH3 will be M after 99 s have passed
Answer:
5.32*10⁻³M
Explanation:
Given:
Rate constant of the First order reaction, k = 1.80*10-2 s-1
Initial concentration of PH3, [A]₀ = 3.16*10-2 M
Reaction time, t = 99 s
Formula:
For a first order reaction:
[tex][A] = [A]_{0} e^{-kt}[/tex]
where [A] and [A]₀ are concentration of reactant at time t and t = 0
k = rate constant
For the given reaction"
[tex][A] = 3.16*10^{-2} e^{-1.80*10^{-2} *99} = 5.32*10^{-3} M[/tex]
What is the equilibrium constant expression for dissolving calcium carbonate in water?
If the temperature of air in gabor's lungs is 37∘c (98.6∘f), and the volume is 6l, how many moles of air n must be released by the time he reaches the surface? let the molar gas constant be given by r = 8.31 jmol⋅k.
To find the number of moles of air released by the time Gabor reaches the surface, we can use the ideal gas law equation PV = nRT. Given the temperature and volume of air in Gabor's lungs, we can calculate the number of moles using the molar gas constant. Approximately 1.945 moles of air must be released by the time Gabor reaches the surface.
Explanation:To find the number of moles of air released by the time Gabor reaches the surface, we need to use the ideal gas law equation, PV = nRT. Given that the temperature in Gabor's lungs is 37°C (98.6°F) and the volume is 6L, we can calculate the number of moles. The molar gas constant (R) is given as 8.31 J/mol⋅K.
First, we need to convert the temperature to Kelvin by adding 273 to the Celsius value:
T = 37°C + 273 = 310K
Now, we can rearrange the ideal gas law equation to solve for moles (n):
n = PV / RT
Plugging in the given values:
n = (1atm * 6L) / (8.31 J/mol⋅K * 310K)
Simplifying the equation:
n = 1.945 moles
Therefore, approximately 1.945 moles of air must be released by the time Gabor reaches the surface.
Learn more about Ideal gas law here:brainly.com/question/30458409
#SPJ6
The MOST common mineral in Earth's outer layer is _____. A. mica B. pyrite C. calcite D. feldspar
Calculate the mass percent of oxygen in chromium(iii) carbonate. round your answer to the nearest percentage.
Answer:
The percentage is 50.7%
Explanation:
The formula of chromium (III) carbonate is (Cr₂(CO₃)₃)
Let us calculate the molar mass of (Cr₂(CO₃)₃)
molar mass of (Cr₂(CO₃)₃) =
2X atomic mass of Cr + 3X atomic mass of C + 9X atomic mass of O
molar mass of (Cr₂(CO₃)₃) = 2X 52 + 3X12 +9X16 = 284g/mol
As per the formula there are nine moles of oxygen in each mole of (Cr₂(CO₃)₃).
so we can say that
In 284g of (Cr₂(CO₃)₃) the mass of oxygen = 144g
so 1 g of (Cr₂(CO₃)₃) the mass of oxygen = [tex]\frac{144}{284}=0.507g[/tex]
Therefore
the mass of oxygen in 100g of(Cr₂(CO₃)₃) =0.507X100=50.7
Thus percentage of Oxygen in (Cr₂(CO₃)₃) =50.7%
Please explain your answer!
Thanks!
In the Beer-Lambert Law equation, what does the “b” represent?
Concentration
Absorption
y-intercept
Buoyancy
Thickness of solution
In the Beer-Lambert Law equation, “b” represents[tex]\boxed{{\text{thickness of solution}}}[/tex].
Further explanation:
Spectrophotometry is a method that is applied for measurement of absorbance of light in terms of intensity of light when light is allowed to pass through the solution sample. Spectrophotometer is the equipment or instrument that is employed for this purpose.
Beer-Lambert’s Law:
This law describes the relationship of absorbance with concentration and path length of solution. According to this law, absorbance of any solution is directly related to its concentration and optical path length. The expression for Lambert-Beer’s law is as follows:
[tex]{\text{A}} = {{\varepsilon bc}}[/tex] …... (1)
Where,
A is absorbance of species.
[tex]{{\varepsilon }}[/tex] is molar absorptivity of species.
b is optical path length or thickness of solution.
c is concentration of species.
If graph is plotted between absorption and concentration of solution, a straight line or linear graph is observed. But this linearity is lost at extremely high concentrations. This non-linearity can be due to several factors. Some of these include use of non-monochromatic radiations, scattering of light, phosphorescence or fluorescence of sample.
According to equation (1),“b” represents the thickness of the solution.
Learn more:
Classify the transitions as absorption or emission of light: https://brainly.com/question/1594022 What is the frequency of yellow light? https://brainly.com/question/5882803Answer details:
Grade: Senior School
Subject: Chemistry
Chapter: Beer-Lambert Law
Keywords: absorbance, Beer-lambert’s law, concentration, path length, solution, directly related, thickness of solution, molar absorptivity, A, b, c, spectrophotometry, spectrophotometer.
How many moles are there in a 2.00 kg bottle of water?
G: draw the monosaccharide present in dna. draw the sugar in its β-furanose form.
Answer:
Deoxyribose.
Explanation:
Hello,
On the attached picture, you will find the β-furanose structure of the deoxyribose which is the monosaccharide present in the DNA (deoxyribonucleic acid).
Deoxyribose is a sugar derived from ribose by replacement of a hydroxyl group by hydrogen. In addition, it is the five-carbon sugar molecule that helps form the phosphate backbone of DNA molecules
Best regards.
Gold has a molar (atomic) mass of 197 g/mol. consider a 2.47 g sample of pure gold vapor. (a) calculate the number of moles of gold present
When michelle's blood was tested, the chloride level was 0.45 g/dl.
a. what is this value in milliequivalents per liter?
The value in milliequivalents per liter 127 mEq/L when michelle's blood was tested, the chloride level was 0.45 g/dl.
Milliequivalent:
A milliequivalent is a unit of measurement often used for electrolytes and it tells us the chemical activity of the species relative to 1 mg of hydrogen.
The formula,
[tex]\rm \bold {mEq/L = \frac{ (mg/L)}{MW} }[/tex]
0.45 g/dL x 10 dL/1L = 4.5 g/L
Put the value,
Given here,
Chloride level = 0.45 g/dl = 4500 mg/L
The atomic weight of chloride (35.5 g/mol) to solve for the mEq/L:
[tex]\rm \bold { mEqL = \frac{ (4500 mg/L)}{35.5 g/mol)} }[/tex]= 127 mEq/L
Hence, we can conclude that the value in milliequivalents per liter 127 mEq/L when michelle's blood was tested, the chloride level was 0.45 g/dl.
To know more about equivalent mass, refer to the link:
https://brainly.com/question/20366679?referrer=searchResults
If 12.1 kilograms of al2o3(s), 60.4 kilograms of naoh(l), and 60.4 kilograms of hf(g) react completely, how many kilograms of cryolite will be produced?
Without the complete chemical equations for the synthesis of cryolite, it's not possible to calculate the mass of cryolite produced from the reactants Al2O3, NaOH, and HF.
Explanation:To determine the mass of cryolite that will be produced, we need to look at the stoichiometry of the reactions involved. However, the given information does not provide a complete chemical equation for the reaction of Al2O3, NaOH, and HF to form cryolite, so we can't perform a straightforward stoichiometric calculation. Instead, we know from the provided context that aluminum oxide reacts with cryolite in the Hall-Heroult process, suggesting that cryolite acts as a solvent for Al2O3 during aluminum extraction.
In the industrial production of aluminum, cryolite serves as a solvent and does not get consumed in the process. Therefore, we cannot calculate the amount of cryolite produced without the specific chemical equations for its synthesis. One would typically start with a known amount of aluminum oxide and cryolite for the electrolysis process rather than producing cryolite during the reaction. Since we cannot calculate the mass of cryolite produced with incomplete information, we would need the actual synthesis reaction of cryolite to proceed.
if a copper acetate hydrate, Cux(C2H3O2)y zH2O compound is found to contain 31.82% Copper, 59.14% acetate,and the remainder is water. What is the empirical formula of this compound ?
The table below shows the set of traits in four different beetle populations.
Traits in Population
Population
Traits
1
Brown-colored beetles, pesticide-resistant gene present
2
Green-colored beetles, pesticide-resistant gene absent
3
Green and brown–colored beetles, pesticide-resistant gene absent
4
Green and brown–colored beetles, pesticide-resistant gene present
Which population of beetles is most likely to become extinct when the existing conditions change?
The most likely species of beetles to become extinct when existing conditions change is the Green-colored beetles, pesticide-resistant gene absent; option 3.
What is favorable traits?Favorable traits are those traits possessed by organisms which enables them to survive or gives them an advantage to adapt to their environment.
An example of a favorable trait is pesticide-resistance or being disease-resistant.
Therefore, the most likely species of beetles to become extinct when existing conditions change is the Green-colored beetles, pesticide-resistant gene absent.
Learn more about favorable traits at: https://brainly.com/question/382483
#SPJ6
A 225 g sample of french fries supplies 460 kilocalories of energy. 65% of those calories come from fat, which supplies 9 kilocalories of energy per gram. How many grams of fat are in the french fries?
Answer:
33 g
Explanation:
A 225 g sample of french fries supplies 460 kilocalories of energy. 65% (0.65) of those calories come from fat. The kilocalories coming from fat are:
460 kcal × 0.65 = 299 kcal
9 kilocalories of energy are supplied per gram of fat. The grams of fat that supply 299 kcal are:
299 kcal × (1 g fat/ 9 kcal) = 33 g
What kind of chemical reaction does the chemical equation sodium + chlorine → sodium chloride represent?
Answer: This chemical reaction is defined as synthesis reaction.
Explanation:
Synthesis reaction is defined as the reaction in which two or more substances combine in their elemental state to produce a single compound.
The general chemical equation representing this reaction is:
[tex]A+B\rightarrow AB[/tex]
For the given chemical reaction:
[tex]2Na(s)+Cl_2(g)\rightarrow 2NaCl(s)[/tex]
Hence, this chemical reaction is defined as synthesis reaction.
A solution with a ph of 4 has _________ the concentration of h+ present compared to a solution with a ph of 5.
A solution of hcl in water conducts electricity, but a solution of hcl in chloroform, chcl3, does not. what does this observation tell you about how hcl exists in water and how it exists in chloroform?
Explanation:
A polar covalent bond is formed due to unequal sharing of electrons between the combining atoms.
For example, HCl is a polar covalent compound.
This is because of the difference in electronegativities of both hydrogen and chlorine, partial opposite charges tend to develop on the hydrogen and chlorine atoms.
Whereas [tex]CHCl_{3}[/tex] is a non-polar compound and when HCl is added to it then HCl being polar in nature is unable to dissolve.
On the other hand, water is a polar compound and when HCl is dissolved in it then it will dissociate into hydrogen and chlorine ions.
As electricity is the flow of ions or electrons. Therefore, HCl in water is able to conduct electricity because it dissociates into ions.
Therefore, we can conclude that HCl in water exists as [tex]H^{+}[/tex] and [tex]Cl^{-}[/tex] ions. And, HCl in [tex]CHCl_{3}[/tex] exists as HCl.
Which excerpt from amy tan's "fish cheeks" is most clearly an example of conflict?
a.robert and his family waited patiently for platters to be passed to them. my relatives murmured with pleasure when my mother brought out the whole steamed fish.
b.it wasn't until many years later — long after i had gotten over my crush on robert — that i was able to fully appreciate her lesson and the true purpose behind our particular menu.
c.the kitchen was littered with appalling mounds of raw food: a slimy rock cod with bulging eyes that pleaded not to be thrown into a pan of hot oil. tofu, which looked like stacked wedges of rubbery white sponges.
d.and then they arrived — the minister's family and all my relatives in a clamor of doorbells and rumpled christmas packages. robert grunted hello, and i pretended he was not worthy of existence?
the correct
answer is D
Because the rock is irregularly shaped, you used the (______) method to measure its volume.
A. Addition
B. Direct
C. Displacement
Answer:
The correct answer is option C. "Displacement".
Explanation:
The displacement method for measuring volume consist in measuring the amount of water that an object displaces when is submerged in a defined amount of water. This is an indirect method which is particularly useful to measure the volume of irregularly shaped objects, such as the rock stated in the question.
5(1-8r)+8r the awnser
match the correct properties and characteristics of each type of rock?
Sedimentary rocks are formed from the deposition of materials on Earth's surface or in bodies of water, often in easily weathered layers. Igneous rocks originate from cooled magma and can have various surface characteristics. Metamorphic rocks result from the transformation of existing rocks and are characterized by hard layers formed under high temperature and pressure.
Matching properties and characteristics to each type of rock:
A) cooled magma
Igneous rocks are formed from the cooling and solidification of molten magma. This process can occur beneath the Earth's surface (intrusive) or at the surface (extrusive), giving rise to different textures within igneous rocks.
B) deposition of material on Earth's surface or in bodies of water
Sedimentary rocks are the result of the accumulation and compression of sediments, which can include minerals, organic materials, and even the remains of plants and animals. These sediments often accumulate in bodies of water or on Earth's surface, and over time, they become compacted and cemented into rock.
C) arises from the transformation of existing rocks
Metamorphic rocks are formed through the alteration of pre-existing rocks. This alteration typically occurs due to changes in temperature, pressure, or mineral composition. Metamorphism can result in the development of new minerals and textures within the rock.
D) made of layers that are weathered relatively easily
Sedimentary rocks often exhibit a layered or stratified structure. These layers, called bedding planes, can be prone to weathering and erosion because they are composed of smaller particles, making them susceptible to mechanical and chemical breakdown.
E) made of hard layers formed under high temperature and pressure
Metamorphic rocks, as a result of their formation from existing rocks undergoing high temperatures and pressures, tend to be harder and more resistant to weathering than sedimentary rocks. They often have a foliated texture with aligned minerals.
F) has a shiny surface throughout
Igneous rocks can exhibit a variety of surface characteristics, including a shiny appearance, but this attribute is not exclusive to them. The luster or shine of an igneous rock can vary based on its mineral composition, texture, and the presence of glassy or metallic minerals.
For more such information on: Sedimentary rocks
https://brainly.com/question/30765754
#SPJ2
The question probable may be:
Match the correct properties and characteristics to each type of rock.
sedimentary
igneous
metamorphic
A)) cooled magma
B))
deposition of material
on Earth’s surface or
in bodies of water
C))arises from
transformation
of existing rocks
D))made of layers that are
weathered relatively
easily
E))made of hard layers
formed under high
temperature
and pressure
F))has a shiny surface
throughout
Alanine, h2nch(ch3)co2h, has ka = 4.5 10–3 and kb = 7.4 10–5 . which species has the highest concentration at a ph of 7.00 in h2o?
A generic gas, x, is placed in a sealed glass jar and decomposes to form gaseous y and solid z. 2x(g)↽−−⇀y(g)+z(s) how are these equilibrium quantities affected by the initial amount of x(g) placed in the container? assume constant temperature.
Formation of Y and Z directly depends on initial amount of X present.
Further Explanation:
Le Chatelier’s principle:
This states that any change in pressure, temperature or concentration in any reaction that is present in equilibrium tends to shift equilibrium in such direction that reverses the effect of changed quantity in reaction.
Given reaction occurs as follows:
[tex]2\text{X(g)}\rightleftharpoons\text{Y(g)}+\text{Z(g)}[/tex]
According to this reaction, two moles of X decompose to form one mole of Y and one mole of Z.
Amounts of Y and Z formed during the given reaction depend on initial amount of X present. More the amount of X, higher will be formation of products Y and Z and vice-versa. So if amount of X is increased, equilibrium will tend to shift in direction that reverses this effect. This is done only by increased consumption of X that results in more formation of products. Therefore more amounts of Y and Z are formed if initial amount of X is increased and formation of Y and Z decreases if initial amount of X is decreased.
Learn more:
Calculation of equilibrium constant of pure water at 25°c: https://brainly.com/question/3467841 Complete equation for the dissociation of (aq): https://brainly.com/question/5425813Answer details:
Grade: Senior School
Subject: Chemistry
Chapter: Chemical Equilibrium
Keywords: Le Chatelier’s principle, equilibrium, shift, direction, X, Y, Z, 2X, pressure, temperature, concentration, consumption, increase, decrease, two moles, one mole.
Final answer:
The initial amount of gas x does not affect the equilibrium quantities at a constant temperature. The concentration of solid z is constant and it is omitted from the equilibrium expression, meaning only gaseous reactants y and products are considered. The equilibrium position is dependent on the partial pressures of the gases, set by the equilibrium constant for given temperature conditions.
Explanation:
When a generic gas x decomposes in a sealed glass jar to form gaseous y and solid z following the reversible reaction 2x(g) ⇌ y(g) + z(s), the initial amount of x(g) does not affect the equilibrium quantities. This is established by Le Chatelier’s Principle and the concept of equilibrium constants. In a heterogeneous equilibrium like this, where a solid is involved, the concentration of the solid remains constant and it is omitted from the equilibrium expression. Only the concentrations of the gaseous reactants and products are variable and are included in the expression.
The equilibrium composition in the gas phase at a constant temperature remains the same, regardless of the initial amount of x(g). This is because the solid z(s) does not appear in the equilibrium constant expression and does not have a concentration that changes. What really matters for the position of equilibrium is the ratio of the concentrations (partial pressures) of the gaseous reactants and products, something that is fixed by the equilibrium constant at a given temperature.
Moreover, the system’s response to a change in volume or pressure depends on the stoichiometry of the gaseous components according to their molar quantities. In a reaction where the total molar amounts of reactants and products are equal, a change in volume does not shift the equilibrium. If the molar amounts are different, a volume change will shift the equilibrium in a direction that accommodates the volume change. However, as the temperature is held constant in this scenario, volume changes are not being considered, simplifying the analysis of the system.
Chemical equation for:
Cuprite, copper(I) oxide
Chalcocite, copper(I) sulfide
Covellite, copper(II) sulfide
If a copper acetate hydrate, Cux(C2H3O2)y zH2O compound is found to contain 31.82% Copper, 59.14% acetate, and the remainder is water. What is the empirical formula of this compound
Question 15 How many grams of NaCl are required to make 500.0 mL of a 1.500 M solution? 58.40 g 175.3 g 14.60 g 43.83 g
A combination of sand, salt, and water is an example of a
1. Compound
2.solid
3.pure substance
4.homogeneous mixture
5. Heterogeneous mixture.
A combination of sand, salt, and water is an example of a heterogeneous mixture, where you can distinguish between the different components - the sand settles at the bottom, the water above it, and the salt dissolves in the water but can still be separated.
Explanation:A combination of sand, salt, and water is an example of a heterogeneous mixture. This is because in a heterogeneous mixture, the individual components can be visibly distinguished. Sand, salt, and water are each physically distinct within the mixture. For instance, if you look closely at such a mixture in a clear glass, you would see the sand settling at the bottom, the water above it, and the salt would have dissolved in the water but could still be separated by means of evaporation.
This is different from a homogeneous mixture, where all the components are evenly distributed and cannot be visually distinguished, such as salt fully dissolved in water. It's also not a compound, where different elements are chemically combined and cannot be separated by physical methods. Nor is it a pure substance which consists of only one type of atom, element, or compound. Finally, it's not just a solid because it contains both solid (sand, salt) and liquid (water) states of matter.
Learn more about Heterogeneous Mixture here:https://brainly.com/question/24898889
#SPJ3
A Gas OCCUPIES 525ML AT A PRESSURE OF 85.0 kPa WHAT WOULD THE VOLUME OF THE GAS BE AT THE PRESSURE OF 65.0 kPa
Boyle's law of ideal gas: This law states that the volume of a gas is inversely proportional to its pressure at a constant temperature. Acc to this law we can write the relation of pressure and volume as:
[tex] PV=Constant [/tex]
That means:
[tex] P_{1}V_{1}=P_{2}V_{2} [/tex]
From that equation we can calculate Volume of gas at a certain pressure:
P₁=Initial pressure
V₁=Initial volume
P₂=Final pressure
V₂= Final volume
Here P₁, initial pressure is given as 85.0 kPa
V₁, initial volume is given as 525 mL
P₂, final pressure is 65.0 kPa
[tex] P_{1}V_{1}=P_{2}V_{2} [/tex]
so,
V_{2}=85\times 525\div 65
=686 mL
Volume of gas will be 686 mL.