The chemical weathering process known as oxidation would be most effective in the breakdown of pyroxenes, quartz, calcite, and feldspar Earth minerals.
Oxidation is a chemical reaction between oxygen and other substances in the environment which causes a breakdown of the Earth minerals, resulting in their decomposition. Halite, or sodium chloride, is an example of a mineral that is not affected by the oxidation process.
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147 grams of argon to liters
Answer:
Explanation:
3.6797837188344116 mol
describes a chemical weathering process where the products are typically . oxidation / coal beds hydrolysis / clay minerals precipitation / dissolved bicarbonate ions dissolution / iron oxides (hematite)
Answer: The chemical weathering process that dissolves iron oxides (hematite) is called dissolution.
What is chemical weathering?
Chemical weathering is the process by which rocks and minerals are broken down by chemical reactions. This kind of weathering transforms the original composition of rocks and minerals into new compounds that are more stable at the Earth's surface. Chemical weathering can change the overall appearance, strength, and porosity of rocks over time.
Types of chemical weathering processes Chemical weathering processes can take a variety of forms, such as: Hydrolysis ,Oxidation, Carbonation ,Dissolution.
Students must keep in mind that these processes may occur simultaneously in a specific area to produce new minerals with varied properties. And among the different chemical weathering processes, the one that dissolves iron oxides (hematite) is called dissolution.
What is dissolution?
The process in which a chemical compound is dissolved in a solvent is known as dissolution. It is a physical change rather than a chemical change since the chemical composition of the substance being dissolved is not altered. Dissolution is used in many processes, such as extracting and separating minerals, preparing solutions, purifying liquids, and so on.
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analysis of a carbohydrate showed that it consisted of 40.0 % c, 6.71 % h, and 53.3 % o by mass. its molecular mass was found to be between 140 and 160 amu. what is the molecular formula of this compound?
The molecular formula of the carbohydrate is C12H20O10.
The molecular formula of this carbohydrate can be determined by calculating the molecular mass of the compound.
The molecular mass of the compound is calculated using the following equation: Molecular mass = %C x 12 + %H x 1 + %O x 16.
In this case, we can calculate the molecular mass of the compound to be approximately 180 amu.
Since the molecular mass of the carbohydrate is between 140 and 160 amu, the molecular formula of the compound is C12H20O10.
This molecular formula consists of 12 carbon atoms, 20 hydrogen atoms, and 10 oxygen atoms.
The mass percentages of these elements match the molecular formula of the carbohydrate: 40.0 % carbon, 6.71 % hydrogen, and 53.3 % oxygen.
To conclude, the molecular formula of the carbohydrate is C12H20O10. This is calculated by first determining the molecular mass of the compound, then dividing the mass of each element by the molecular mass of the compound.
The molecular mass of the compound is calculated by multiplying the mass percentage of each element by the molar mass of each element.
In this case, the molecular mass of the compound is between 140 and 160 amu, so the molecular formula of the carbohydrate is C12H20O10.
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A tree bears 73 individual pieces of fruit each year. Suppose you own an orchard tht contains 120 of these trees.
a. How much fruit will the orchard produce each year?
b. The upkeep and care of the orchard costs you $850 a year. At what prices will you have to sell each piece of fruit just to break even?
The orchard will produce 8760 individual pieces of fruit each year.
What is break even ?
Break even refers to the point at which the total cost of producing a product or providing a service is equal to the total revenue generated from selling that product or service. At the break-even point, there is no profit or loss, and the business is said to be "breaking even."
In other words, the break-even point is the level of sales at which the business is earning enough revenue to cover all its costs, including fixed costs (e.g., rent, salaries) and variable costs (e.g., cost of goods sold, marketing expenses). Beyond this point, any additional sales or revenue will generate a profit for the business.
a. To calculate how much fruit the orchard will produce each year, we need to multiply the number of trees by the number of fruits each tree bears:
Total number of fruit = 120 trees × 73 fruit/tree
Total number of fruit = 8760
Therefore, the orchard will produce 8760 individual pieces of fruit each year.
b. To calculate the price at which you need to sell each piece of fruit to break even, we need to divide the total cost of upkeep and care by the total number of fruit produced, and then add this to the cost of producing each piece of fruit. This will give us the minimum price at which we need to sell each piece of fruit to cover our costs:
Cost per fruit = (Upkeep cost + Cost of producing each fruit) / Total number of fruit
Since the upkeep and care of the orchard costs $850 per year, and the orchard produces 8760 individual pieces of fruit each year, the cost of upkeep and care per fruit is:
Cost of upkeep and care per fruit = $850 / 8760
Cost of upkeep and care per fruit = $0.097
Therefore, the minimum price at which we need to sell each piece of fruit to cover our costs is:
Minimum price per fruit = Cost per fruit + Cost of upkeep and care per fruit
Minimum price per fruit = Cost of producing each fruit + $0.097
Without information about the cost of producing each piece of fruit, we cannot calculate the minimum price required to break even.
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.
after pressing a heat treatment operation performed on the compact to bond metallic particles is know as:
Answer: The heat treatment operation performed on the compact to bond metallic particles is known as sintering.
What is sintering?
Sintering is a heat treatment process in which particles of a material are compressed into a strong mass, typically by heat but sometimes by pressure or other means. This process is mostly used for manufacturing ceramics, metals, and plastics.
The goal of sintering is to make a material more durable and compact, and it can be done in several ways.In general, sintering is used to manufacture components that are strong, resistant to wear and tear, and have high heat resistance.
Because sintering involves the use of heat, it can be used to remove defects from materials and create components with high dimensional accuracy.
In addition, sintering can be used to produce a wide range of shapes and sizes, making it a versatile manufacturing technique.
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suppose the 1h nmr spectrum shown below is obtained from a reaction product of a student who wanted to make acetyl ferrocene from ferrocene, what can you say about the product?
Answer: The 1H NMR spectrum shown below is most likely that of the product obtained from a reaction of ferrocene and acetic anhydride.
The spectrum displays a single peak at 6.6 ppm, which is characteristic of a vinyl proton in a substituted cyclopentadienyl ring. The peak at 5.2 ppm is that of a methylene protons in the acyl substituent. The peak at 1.2 ppm is that of a proton attached to a tertiary carbon. This strongly suggests that the student has successfully synthesized acetyl ferrocene.
Acetyl ferrocene is a stable compound, containing a cyclopentadienyl ring with an acyl substituent attached at one of the ring carbons. It is synthesized by reacting ferrocene with acetic anhydride, a reaction that requires heating. The reaction leads to the substitution of a proton in the cyclopentadienyl ring by an acyl group, resulting in acetyl ferrocene.
The 1H NMR spectrum of this product contains a single peak at 6.6 ppm, indicating the presence of a vinyl proton in the cyclopentadienyl ring, a peak at 5.2 ppm, indicating the presence of a methylene protons in the acyl substituent, and a peak at 1.2 ppm, indicating the presence of a proton attached to a tertiary carbon.
Therefore, it can be concluded that the student has successfully synthesized acetyl ferrocene from ferrocene using acetic anhydride.
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what is necessary for extraction? group of answer choices two phases in which the solute is equally soluble higher solute solubility in the second phase lower solute solubility in the second phase two phases in which the solute is equally insoluble
For extraction, there should be an option c) lower solute solubility in the second phase.
Extraction is a process in which a solute is separated from a solution or mixture by two immiscible liquid phases. It involves two phases in which the solute has different solubilities.
In the first phase, the solute has higher solubility, meaning it dissolves more readily.
In the second phase, the solute has lower solubility, meaning it is less likely to dissolve.
In order for extraction to be successful, the solute must be differently soluble in the phases. This ensures that the solute is separated efficiently and effectively.
The process of extraction involves the formation of two liquid phases and the transfer of the solute from one phase to the other. The solute is transferred from the first phase to the second phase, where it is separated from the solution.
To summarize, extraction is a process of separating a solute from a solution or mixture by two immiscible liquid phases. It involves two phases in which the solute has different solubilities.
Therefore, for extraction, it is necessary for the solute to have a lower solubility in the second phase. and hence the correct answer is option c.
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how many ounces of a 35 % solution of sulfuric acid (and distilled water)must be mixed with 20 oz of a 20 % solution to get a 30 % solution of sulfuric acid?
To get a 30% solution of sulfuric acid, 4 oz of a 35% solution of sulfuric acid (and distilled water) must be mixed with 20 oz of a 20% solution of sulfuric acid.
A solution is a homogeneous mixture of two or more substances. For instance, two or more gases, or a gas and a solid, or a liquid and a solid, or two or more liquids could be mixed to create a solution.
First, determine the volume of sulfuric acid in each solution, then combine them to obtain the total amount of sulfuric acid. Solve the equation based on the sulfuric acid content in the final solution.
The volume of sulfuric acid in 35% solution is:
35% = 35/100
= 0.35
V1 = volume of 35% solution of sulfuric acid and distilled water
V1 = 0.35 x V1
Suppose V2 is the volume of 20% solution of sulfuric acid, then
20% = 20/100
= 0.2
V2 = volume of 20% solution of sulfuric acid
V2 = 0.2 x 20 oz
= 4 oz
Let's combine the two solutions.
Total volume is (V1 + V2) ounces,
and the amount of sulfuric acid is 0.35V1 + 0.2V2 ounces.
The volume of sulfuric acid in the final mixture is:
30% = 30/100
= 0.3
V1 + V2 = total volume
0.35V1 + 0.2V2 = total sulfuric acid volume
(0.3 x (V1 + V2)) = 0.35V1 + 0.2V2
V1 + V2 = 40
V1 = 4 oz
Substitute the value of V1 in the equation
V1 + V2 = 40(4 oz) + V2
= 40 V2
= 36 oz
To solve this problem, we can use the concept of the concentration of a solution, which is given by the amount of solute (in this case sulfuric acid) divided by the total amount of solution (sulfuric acid and water) multiplied by 100.
Or
Let x be the number of ounces of the 35% solution of sulfuric acid needed to make a 30% solution. We know that we have 20 ounces of a 20% solution. We can set up an equation based on the concentration of the sulfuric acid in the two solutions:
(0.35x + 0.20(20)) / (x + 20) = 0.30
Simplifying this equation, we get:
0.35x + 4 = 0.30x + 6
0.05x = 2
x = 40
Therefore, we need 40 ounces of the 35% solution of sulfuric acid to mix with the 20 ounces of the 20% solution to obtain a 30% solution.
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which compound in each pair below would you expect to have a greater fluorescence quantum yield? explain
The compound O,O'-dihydoxyazobenzene, have a greater fluorescence quantum yield because of the rigidity provided by the -N=N- group. Option D is correct.
Fluorescence quantum yield is a measure of the efficiency of a molecule to emit fluorescence, which is dependent on various factors, including the rigidity or flexibility of the molecule and the presence of any functional groups that can affect the electronic structure. In the given options, O,O'-dihydoxyazobenzene has a rigid structure due to the presence of the azo group (-N=N-) that is expected to restrict the molecule's vibrational freedom, thereby reducing non-radiative energy loss and enhancing fluorescence.
On the other hand, bis(o-hydroxyphenyl) hydrazine has a flexible structure due to the -NH-NH- group, which can lead to higher non-radiative energy loss, reducing the fluorescence quantum yield. Therefore, O,O'-dihydoxyazobenzene is expected to have a greater fluorescence quantum yield than bis(o-hydroxyphenyl) hydrazine.
Hence, D. O,O'-dihydoxyazobenzene, because of the rigidity provided by the -N=N- group is the correct option.
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--The given question is incomplete, the complete question is
"Which compound in each pair below would you expect to have a greater fluorescence quantum yield? A) bis(o-hydroxyphenyl) hydrazine, because of the chemical activity of the two extra H atoms. B) bis(o-hydroxyphenyl) hydrazine, because of the flexibility provided by the -NH -NH - group C) O,O'-dihydoxyazobenzene, because of the chemical activity of the -N=N- group. D) O,O'-dihydoxyazobenzene, because of the rigidity provided by the -N=N- group."--
to double the resolution between two peaks in a chromatographic separation, the length of the column would need to be...?
The length of the column required depends on the type of chromatographic system used.
Generally speaking, increasing the length of the column increases resolution. This is because a longer column provides a greater surface area for the analyte to travel along, which allows for more efficient separation.
For normal-phase liquid chromatography, the resolution between two peaks can be doubled by doubling the column length. For example, if the column length is 10 cm, the resolution can be doubled by doubling the length to 20 cm.
For reverse-phase liquid chromatography, the resolution can be increased by increasing the non-polar character of the stationary phase. This can be achieved by increasing the length of the column, adding a small number of silanol groups to the stationary phase, or increasing the pH.
Additionally, in reverse-phase chromatography, the resolution between two peaks can be increased by increasing the amount of organic modifier in the mobile phase.
In summary,
For normal-phase liquid chromatography, the resolution can be doubled by doubling the column length. For reverse-phase liquid chromatography, the resolution can be increased by increasing the non-polar character of the stationary phase, or by increasing the amount of organic modifier in the mobile phase.
Therefore, the length of the column required to double the resolution between two peaks in a chromatographic separation depends on the type of chromatographic system used.
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The Air Quality Index (AQI) informs the public about which of the following?
Responses
weekly air quality averages
weekly air quality averages
daily air quality levels
daily air quality levels
amount of particulate matter in the air
amount of particulate matter in the air
size of particulate matter in the air
Explanation:
The Air Quality Index (AQI) informs the public about daily air quality levels, including the amount and size of particulate matter in the air. It provides a standardized measurement to help people understand how clean or polluted the air is in their area and how it may affect their health. The AQI typically reports levels of common air pollutants such as ground-level ozone, particulate matter (PM2.5 and PM10), carbon monoxide, sulfur dioxide, and nitrogen dioxide. The AQI scale ranges from 0 to 500, with higher values indicating more severe air pollution and greater potential health effects.
0.1mol of a substance has a mass of 4g. Calculate the mass of 1 mol
Answer:
The mass of 1 mole of substance is 40 g
Molar Mass is defined as the mass in grams of one mole of a substance. The units of molar mass are grams per mole (g/mol).
This can be found by dividing the mass present by the number of moles. Mathematically, the units: grams ÷ moles = g/mol.
Hence, Molar mass (M) = mass (m) ÷ moles (n).
Therefore, M = m/n = 4/0.1 = 40 g/mol
which one of the following molecules has the highest molecular weight? group of answer choices acetyl coa alpha-ketoglutarate. oxaloacetate citrate isocitrate
the radius of a single atom of a generic element x is 123 picometers (pm) and a crystal of x has a unit cell that is body-centered cubic. calculate the volume of the unit cell.
The radius of a single atom of a generic element x is 123 picometers (pm) and a crystal of x has a unit cell that is body-centered cubic. So, the volume of the unit cell is 11.5482 x 10⁻²⁴ cm³.
Given,
The radius of a single atom of a generic element x is 123 picometers (pm) and a crystal of x has a unit cell that is body-centered cubic.
Body-Centered Cubic (BCC):
In a Body-Centered Cubic unit cell, each corner of the cube has a corner atom, and there is an additional atom in the center of the cube. The atom that is centered on the unit cell is surrounded by eight neighboring atoms, each of which is located at a distance of
4R/√3,
where R is the radius of the atom.
The volume of the unit cell = (4 * radius of the atom)^3/3
For BCC, volume of the unit cell is
(4 * radius of the atom)^3/3
= (4 * 123 pm)^3/3
= 11.5482 x 10⁻²⁴ cm³
The volume of the unit cell is 11.5482 x 10⁻²⁴ cm³.
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a solution is made using 130.0 ml of acetonitrile (density 0.7766 g/ml) and 250.0 ml of water (density 1.000 g/ml). what is the molality acetonitrile in water?
The molality of acetonitrile in water is 9.84 mol/kg.
Molality is an expression of the amount of solute dissolved in a solvent, which is measured in moles per kilogram. Molality is calculated by dividing the moles of the solute by the mass of the solvent, in kilograms.
In this case, the moles of the solute (acetonitrile) can be calculated by multiplying the volume (130.0 mL) with the density (0.7766 g/mL) and dividing it by its molar mass (41.05 g/mol).
moles of acetonitrile = (130.0 mL)(0.7766 g/mL) / (41.05 g/mol) = 2.459 mol
The mass of the solvent (water) can be calculated by multiplying its volume (250.0 mL) with its density (1.000 g/mL).
mass of water = (250.0 mL) (1.000 g/mL) = 250 g
Thus, the molality of acetonitrile in water is:
molality = (2.459 mol) / (250 g)(1 kg/1000 g) = 9.84 mol/kg.
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mariela finds that an element's most stable ion forms x2 . the ion of element x has a mass number of 137 and 54 electrons. a) (2 pts) what is the identity of the element x? b) (2 pts) how many neutrons does it have?
Answer: a) The identity of element X is Xenon. b) There are 83 neutrons in element X.
In order to identify the element X, let's first find its atomic number. The number of electrons in the neutral atom is equivalent to the atomic number of the particular element. The ion of element X has a total of 54 electrons, so X has 54 protons, implying that X's atomic number is 54. The atomic number of a chemical element is the number of protons in its atomic nucleus.
b) The number of neutrons in an atom is equal to the mass number minus the atomic number of the element. Thus, the number of neutrons in element X can be determined by subtracting 54 from 137, which gives 83 neutrons inside atom of elements.
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How would you interpret that all four C-H bonds of methane are identical?
The four C-H bonds of methane are identical because all of these are formed by the overlapping of the same type of orbital's i.e; hybrid orbital's of carbon and s-orbital of hydrogen.
The vaporization of
from the liquid to the gas state requires 7.4 kcal/mol (31.0 kJ/mol).
What is the sign of
for this process? Write a reaction showing heat as a product or reactant.
How many kilocalories are needed to vaporize 5.8 mol of
How many kilojoules are needed to evaporate 82 g of
Evaporation is a different term for it. As particles move more quickly than liquid molecules, a liquid needs energy to transform into a gas.
What is the liquid vaporisation process?vaporisation is the process by which a substance is transformed from its liquid or solid state into its gaseous (vapour) state. Boiling is the term for the vaporisation process when conditions permit the creation of gas bubbles within a liquid. Sublimation is the process of directly converting a solid into a vapour.
How fast does vaporisation occur?The ratio of the time needed to evaporate a testing solvent to the time needed to evaporate a reference solvent under the same circumstances is the evaporation rate. The findings can be shown as either a percentage of the total amount evaporated within a given time frame, the amount of time needed to evaporate, or a relative rate.
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A rate constant obeys the Arrhenius equation, the factor A 2.2 x 1013 s and the activation energy being 150. kJ mol. What is the value of the rate constant at 227°C, in 6.7x10-22 s-1 b. 2.1x1013 -1 1.5x101 s 4.7x10-3 s1 a. C.
The rate constant at 227°C is a. 6.7 x [tex]10^{-22}[/tex].
How to find the rate constant of a reaction?The Arrhenius equation states that the rate constant (k) is equal to A × e(-Ea/RT).
Given values: A = 2.2 x 10¹³ s⁻¹, Activation energy (Ea) = 150 kJ/mol, Temperature (T) = 227°C = 500 K.
For this, we need to substitute the given values in the Arrhenius equation as
k = A × e(-Ea/RT)
k = 2.2 x 10¹³ s⁻¹ × e(-150000 J/mol / (8.31 J/mol-K × 500 K))
k = 2.2 x 10¹³ s⁻¹ × e(-30.12)
k = 6.69 x 10⁻¹² s⁻¹
Therefore, the value of the rate constant at 227°C is 6.69 x 10⁻¹² s⁻¹. Hence, option A is the correct answer.
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if you start with 0.045 m of i2 at this temperature, how much will remain after 5.12 s assuming that the iodine atoms do not recombine to form i2 ? g
At 0.045 m of I2 and a given temperature, after 5.12 s of reaction, a certain amount of I2 will remain, the amount of I2 remaining, it is important to consider the rate of reaction of the: iodine atoms.
Assuming that the iodine atoms do not recombine to form I2, we can use the formula:
[tex]m(t) = m(0) x e^(-kt),[/tex]
where m(t) is the mass of I2 remaining after time t, m(0) is the initial mass of I2, k is the rate constant, and t is the time.
Therefore, the mass of I2 remaining after 5.12 s is [tex]0.045 m x e^(-k x 5.12 s).[/tex]
To solve for the rate constant k, we can use the equation
[tex]k = -ln(m(t)/m(0)) / t,[/tex]
where m(t) is the final mass of I2 and m(0) is the initial mass of I2.
Therefore, the rate constant for the reaction is [tex]-ln(m(5.12s)/m(0)) / 5.12s[/tex]. With this rate constant, the amount of I2 remaining after 5.12 s can be calculated by plugging it into the first equation, [tex]m(t) = m(0) x e^(-kt).[/tex]
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at a fixed temperature and number of moles of nitrogen gas, its volume and pressure are 148 ml and 743 torr, respectively. what is the final pressure in torr, if the final volume is 214 ml?
The final pressure of nitrogen gas, at a fixed temperature and number of moles, with a final volume of 214 ml is 552 torr.
The pressure and volume of an ideal gas are inversely proportional to each other, meaning if one increases, the other decreases. This can be expressed by the equation PV=nRT, where n is the number of moles, R is the ideal gas constant, and T is the temperature in Kelvin.
Since n and T remain constant, the equation can be rearranged to solve for pressure as P=nRT/V. Using the given values, P= (1)(0.08206)(273.15)/(214 ml) = 552 torr.
Thus, the final pressure of nitrogen gas at a fixed temperature and number of moles, with a final volume of 214 ml is 552 torr.
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now you know how much bsa stock solution you need to put into our new vessel. but, we still do not have 10 ml of a 10 mg/ml bsa solution. what do you think you could add to the new vessel to make it the final volume of 10 ml?
2 ml of the 50 mg/ml BSA stock solution is required to be added to the new vessel in order to make the final volume of 10 ml.
If we are not having 10 ml of a 10 mg/ml BSA solution, we then we are required to make it by adding some additional solvent or buffer to dilute the stock solution.
Let us assume that we are having some BSA stock solution, let's say 50 mg/ml, and we need 10 ml of 10 mg/ml BSA solution, we can use the following formula to calculate the required amount of stock solution and solvent:
C1V1 = C2V2
(Here, C1 is the concentration of the stock solution (50 mg/ml), V1 is the volume of the stock solution we need to use (which is unknown), C2 is the desired concentration (10 mg/ml), and V2 is the final volume we want to achieve (i.e. 10 ml).
Rearranging the formula above , we will be getting,
V1 = (C2V2)/C1
Substituting the values we have in the equation, we will be getting,
V1 = (10 mg/ml x 10 ml)/50 mg/ml = 2 ml
Therefore it can be said that we are needed to take 2 ml of the 50 mg/ml BSA stock solution and add it to the new vessel. To make the final volume 10 ml, we need to add 8 ml of the appropriate solvent or buffer.
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6.0 mol NaOH can form
3.0 mol Na3PO4 while 9.0 mole H3PO4
can form 9.0 mol Na3PO4. What mass of
Na3PO4 forms?
Na3PO4: 164 g/mol
[?] g Na3PO4
Round your answer to the ones place.
g NasPO4
Answer:
1) 492 grams Na3PO4
2) 1,476 grams Na3PO4
Explanation:
6.0 mol NaOH forms 3.0 mol Na3PO4
9.0 mole H3PO4 forms 9.0 mol Na3PO4.
What mass of Na3PO4 forms?
1) 6.0 moles of NaOH
3.0 moles of Na3PO4 are formed. Convert thism into grams using the molar mass conversion factor: 164 g/mole
(3.0 moles Na3PO4)*(164 g/mole Na3PO4) = 492 grams
2) 9.0 moles of H3PO4
9.0 moles of Na3PO4 are formed. Again, use the molar mass conversion factor.
(9.0 moles Na3PO4)*(164 g/mole Na3PO4) = 1,476 grams Na3PO4
given that burning a 1 gram carbohydrate sample raised the temperature of the 500 gram water bath by 8oc, calculate how much heat energy was released by the carbohydrate sample.
The burning of 1 gram carbohydrate release 16,736 J of heat energy.
Burning a 1 gram carbohydrate sample raised the temperature of the 500 gram water bath by 8°C, to calculate how much heat energy was released by the carbohydrate sample, we can use the specific heat capacity of water which is 4.18 J/g°C.
The heat energy released by the carbohydrate sample can be calculated using the following equation:
Heat energy (J) = mass of water (g) × specific heat capacity of water × ΔTHeat energy
In this case, the calculation is as follows:
Heat energy (J) = 500 g x 8°C x 4.184 = 16,736 J
Therefore, burning a 1 gram carbohydrate sample raised the temperature of the 500 gram water bath by 8°C and released 16,736 J of heat energy.
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g which solution (high salt concentration or low salt concentration) should observe the greatest total amount of water uptake when steady state is achieved?
The solution high salt concentration should observe the greatest total amount of water uptake when steady state is achieved
Osmosis is refers to the movement of water from areas of high concentration to areas of low concentration across a semi-permeable membrane. When the concentration of solutes in two solutions on opposite sides of the membrane is unequal, water will move from the side with the lower solute concentration to the side with the higher solute concentration in an attempt to equalize the concentration of solutes on both sides. This movement of water will continue until the concentration of solutes is equal on both sides. When steady state is achieved, the rate of water movement from one solution to another becomes equal.
As a result, a solution with a higher salt concentration will have a greater total amount of water uptake when steady state is achieved. Because more water is needed on the side with higher solute concentration to make the concentration equal, the solution with a higher solute concentration will absorb more water until equilibrium is established.
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Atmospheric pressure on the peak of Mt. Everest can be as low as 150 mm Hg, which is why climbers
need to bring oxygen tanks for the last part of the climb. If the climbers carry 10.0 liter tanks with an
internal gas pressure of 3.04 x 10¹ mm Hg, what will be the volume of the gas when it is released from the
tanks?
Answer: The volume of gas released from the tank at the peak of Mt. Everest is 37.83 liters.
Explanation: To solve this problem, we can use the general gas law equation:
PV = nRT
where P is pressure, V is volume, n is the number of moles of gas, R is the gas constant, and T is temperature (in Kelvin).
We can rearrange this equation to solve for volume:
V = nRT/P
We are given the internal gas pressure of the tank (P) and the volume of the tank (10.0 L). We need to find the volume of gas released from the tank (V). We also know that the temperature and number of moles of gas are constant (assuming no leaks or temperature changes during the climb).
To find the volume of gas released at the peak of Mt. Everest (150 mm Hg), we can use the following steps:
Convert the internal gas pressure of the tank to atm:
3.04 x 10¹ mm Hg x (1 atm / 760 mm Hg) = 0.004 atm
Convert the peak pressure to atm:
150 mm Hg x (1 atm / 760 mm Hg) = 0.197 atm
Plug in the known values to the equation:
V = nRT/P
V = nRT / (0.197 atm)
Solve for V:
V = (nRT) / (0.197 atm)
We can assume that the number of moles of gas, n, and the temperature, T, are constant. R is also a constant (0.08206 L atm / mol K).
So we can simplify the equation to:
V = constant / P
V = k / 0.197
where k is a constant. We can solve for k by using the initial conditions:
10.0 L = k / 0.004
k = 0.04 L atm
Now we can use this value of k to find the volume of gas released at the peak of Mt. Everest:
V = k / 0.197
V = 0.04 L atm / 0.197
V = 0.203 L
But this is the volume of gas at standard conditions (0°C and 1 atm). We need to correct for the temperature and pressure at the peak. To do this, we can use the following equation:
(P1 V1) / (n1 T1) = (P2 V2) / (n2 T2)
where the subscripts 1 and 2 refer to the initial and final states of the gas.
We can assume that n and V are constant, so this equation simplifies to:
P1 / T1 = P2 / T2
We can solve for T2:
T2 = (P2 T1) / P1
T1 is the initial temperature of the gas (room temperature, about 20°C or 293 K). P1 is the initial pressure of the gas (0.004 atm). P2 is the final pressure of the gas (0.197 atm).
T2 = (0.197 atm x 293 K) / 0.004 atm
T2 = 14,502 K
This temperature is obviously not physically realistic, but it shows that the volume of gas is greatly affected by the low pressure and temperature at the peak of Mt. Everest. To correct for this, we can assume that the gas behaves ideally and use the ideal gas law equation:
PV = nRT
We can solve for V:
V = (P2 V1 T1) / (P1 T2)
V = (0.197 atm x 10.0 L x 293 K) / (0.004 atm x 14,502 K)
V = 37.83 L
So the volume of gas released from the tank at the peak of Mt. Everest is about 38 liters.
Hope this helps, and have a great day!
which of the following are semiconductor elements? a. iron and copper b. boron and gallium c. silicon and germanium d. arsenic and phosphorou
The correct answer is C. Silicon and Germanium are semiconductor elements. A semiconductor is a material that has properties of both an insulator and a conductor.
It can be used to create transistors, which are components that can be used to amplify or switch electronic signals.
Semiconductor elements are made up of different atoms that have at least four electrons in their outer shell. The four electrons are what gives them their semi-conductive properties.
Silicon and Germanium are two of the most common semiconductor elements.
Silicon is the most widely used semiconductor element. It has four electrons in its outer shell and is found in nature as a component of sand and quartz.
Silicon has the ability to easily form bonds with other atoms, which makes it a great choice for semiconductor devices.
Germanium is also a commonly used semiconductor element. It has four electrons in its outer shell and is a component of coal and many other minerals.
Germanium has a slightly higher electron mobility than Silicon, which makes it better suited for certain types of transistors.
In conclusion, Silicon and Germanium are semiconductor elements. They have four electrons in their outer shell and are used in transistors and other semiconductor devices.
Silicon is the most widely used semiconductor element due to its ability to form strong bonds with other atoms, while Germanium is better suited for certain types of transistors due to its higher electron mobility.
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PLSSS HELP STUCK ON THIS LAB REPORT AND 39PTS I REALLY DON'T DO QUESTIONS BECAUSE IT TAKES AWAY MY PTS BUT THIS NEEDS HELP (Also due before 4:00 pm)
To familiarize students with experimental tools, the scientific method, and data analysis techniques so that they can understand the inductive process that led to the concepts.
What is the experimental summary in Section I?Give a complete sentence description of each stage of the process. It also offers possible explanations (your hypothesis(es)) for what you anticipated the experiment to show. There should be one to three paragraphs in this part.
What significance does experimental study have?Before moving the study into clinical trials, experimental research enables you to test your hypothesis in a controlled setting. Additionally, it offers the best way to test your hypothesis due to the following benefits.
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how many grams of h2o will be formed when 32.0 g h2 is mixed with 12.0 g of o2 and allowed to react to form water?
When 32.0 g of H2 and 12.0 g of O2 are mixed and allowed to react to form water, the end result will be 44.0 g of H2O.
This is because the equation for the reaction is 2H2 + O2 = 2H2O, so for every two grams of H2 that are present, one gram of O2 must be present to balance the equation. Therefore, 32.0 g of H2 and 12.0 g of O2 will result in 44.0 g of H2O.
To solve this problem, first calculate the amount of H2 and O2 needed to create the desired amount of H2O. Using the equation, the ratio of H2 to O2 is 2:1, so the total amount of O2 needed to react with the given amount of H2 is 16.0 g (32.0 g of H2 divided by 2). Next, calculate the amount of H2O that will be produced. To do this, use the equation 2H2 + O2 = 2H2O, so the total amount of H2O produced is twice the amount of H2 and O2, or 44.0 g (32.0 g of H2 + 16.0 g of O2 = 48.0 g, then divided by 2 = 24.0 g).
Therefore, when 32.0 g of H2 and 12.0 g of O2 are mixed and allowed to react to form water, the end result will be 44.0 g of H2O.
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what technique is used in this investigation? group of answer choices colorimetry calorimetry gas pressure measurements titration combustion analysis
The technique used in this investigation is titration.
Titration is a laboratory method used to determine the amount or concentration of a substance in a sample. A reagent, known as the titrant, is added to a solution to react with the substance being studied, known as the analyte. The titration endpoint is determined by observing an indicator's colour change or by performing a calculation.
Titration is a common method used in analytical chemistry for quantifying analytes' concentrations. Acid-base titrations, redox titrations, and complexometric titrations are some of the most common types of titrations used in chemistry labs. Titration is used to calculate the amount of acid, base, salt, or other substance in a sample.
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