Answer: But
Explanation:
1 carbon atom - meth
2 carbon atoms - eth
3 carbon atoms - prop
4 carbon atoms - but
this needs to be memorised
a gas contains 70.0 wt% methane, 15.0% ethane, 5.0% ethylene, and the balance water. a) calculate the molar composition of this gas on both a wet and a dry basis and the ratio (mol h2o/mol dry gas). b) if 100 kg/h of this fuel is to be burned with 30% excess air, what is the required air feed rate (kmol/h)? how would the answer change if the combustion were only 75% complete? c) if the fuel b
A- the ratio of mol water to mol dry gas is 10/100, B- The required air feed rate is 166.67 kmol/h, C- composition of exhaust gas steam is 100% of water.
a) On a wet basis, the molar composition of the gas is 70.0 mol % methane, 15.0 mol % ethane, 5.0 mol % ethylene, and 10.0 mol % water. On a dry basis, the molar composition is 78.26 mol % methane, 17.74 mol % ethane, 4.26 mol % ethylene, and 0 mol % water. The ratio of mol water to mol dry gas is 10.0/100.
b) If 100 kg/h of the fuel is to be burned with 30% excess air, the required air feed rate is 133.33 kmol/h. If the combustion is only 75% complete, the air feed rate would be 166.67 kmol/h.
c) If the fuel burns to 100% completion, the composition of the exhaust gas stream will be 0 mol % methane, 0 mol % ethane, 0 mol % ethylene, and 100 mol % water.
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Calculate the amount of heat needed to convert 230.0g of ice at -10C to water at 0C
Answer:
It would take approximately 81.65 kJ (or 81,650 J) of heat to convert 230.0g of ice at -10C to water at 0C.
Explanation:
To calculate the amount of heat needed to convert ice at -10°C to water at 0°C, we need to consider two steps:
1. Heating the ice from -10°C to 0°C (heat required to raise the temperature of ice)
2. Melting the ice into water at 0°C (heat required to change the state of ice)
Let's first calculate the heat required for step 1:
Q1 = m × c × ΔT
where Q1 is the heat required, m is the mass of the ice, c is the specific heat capacity of ice, and ΔT is the change in temperature.
The specific heat capacity of ice is 2.09 J/g°C, and ΔT is (0°C - (-10°C)) = 10°C.
So, Q1 = 230.0 g × 2.09 J/g°C × 10°C = 4827 J
Now, let's calculate the heat required for step 2:
Q2 = m × Lf
where Q2 is the heat required, m is the mass of the ice, and Lf is the latent heat of fusion of ice.
The latent heat of fusion of ice is 334 J/g.
So, Q2 = 230.0 g × 334 J/g = 76820 J
Therefore, the total amount of heat needed to convert 230.0g of ice at -10C to water at 0C is:
Qtotal = Q1 + Q2 = 4827 J + 76820 J = 81647 J
Therefore, it would take approximately 81.65 kJ (or 81,650 J) of heat to convert 230.0g of ice at -10C to water at 0C.
the volume of a certain gas was found to be 1600cm3 when the pressure was 800mmHg. At what pressure the volume will be decreased to 80% of the original volume.
The pressure will be 1000 mmHg when the volume is decreased to 80% of the original volume.
What is Boyle's law ?Boyle's law, which states that at a constant temperature, the pressure and volume of a gas are inversely proportional.
We can use Boyle's law. This means that:
P 1V1 = P2V2
Where
P1 and V1 are the initial pressure and volume P2 and V2 are the final pressure and volumeIn this case, we know that the initial pressure (P1) is 800 mmHg and the initial volume (V1) is 1600 cm3. We want to find the final pressure (P2) when the volume (V2) is decreased to 80% of the initial volume:
V2 = 0.8V1 = 0.8 x 1600 cm3 = 1280 cm3
Substituting these values into Boyle's law, we get:
P1V1 = P2V2
800 mmHg x 1600 cm3 = P2 x 1280 cm3
Solving for P2, we get:
P2 = (800 mmHg x 1600 cm3) / 1280 cm3
P2 = 1000 mmHg
Therefore, the pressure will be 1000 mmHg when the volume is decreased to 80% of the original volume.
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If 5. 00L of nitrogen reacts completely with hydrogen at a pressure of 3. 00atm and a temperature of 298k, how much ammonia, in gram, is produced?
If 5.00L of nitrogen completely reacts with hydrogen at a pressure of 3.00atm and a temperature of 298k,approximately 20.67 grams of ammonia will be produced.
The balanced chemical equation for the reaction between nitrogen and hydrogen to form ammonia is:
N2 + 3H2 → 2NH3
We can use the ideal gas law to calculate the number of moles of nitrogen:
PV = nRT
where P is the pressure, V is the volume, n is the number of moles, R is the gas constant (0.0821 L atm mol K), and T is the temperature in Kelvin.
Rearranging the equation, we get:
n = PV/RT
Substituting the given values, we get:
n = (3.00 atm) (5.00 L) / (0.0821 L atm mol K) (298 K)
n = 0.607 mol
n(NH3) = 2 × n(N2) = 2 × 0.607 mol = 1.214 mol
Mass(NH3) = n(NH3) × M(NH3) = 1.214 mol × 17.03 g/mol ≈ 20.67 g
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How much KNO3 must be
dissolved in 50 g of water to
yield a saturated solution at
50°C?
Answer:
The solubility of KNO3 in water increases with temperature. At 50°C, the solubility of KNO3 in water is 34 g/100 g water. This means that at 50°C, 100 g of water can dissolve up to 34 g of KNO3.
To find out how much KNO3 must be dissolved in 50 g of water to yield a saturated solution at 50°C, we can set up a proportion:
34 g KNO3/100 g water = x g KNO3/50 g water
where x is the amount of KNO3 that must be dissolved in 50 g of water.
Solving for x, we get:
x = (34 g/100 g) x 50 g
x = 17 g
Therefore, 17 g of KNO3 must be dissolved in 50 g of water to yield a saturated solution at 50°C.
Explanation:
Answer:
Explanation:
This is the simple answer of this question with respect to 60 degree temperature but question requirement is 50 so we will do it according to 50 degree temperature
As the temperature of a reaction is decreased, the rate of the reaction decreases because thegroup of answer choicesreactant molecules collide less frequentlyreactant molecules collide more frequently and with greater energy per collisionactivation energy is higherreactant molecules collide more frequently with less energy per collision
Answer:
Reactant molecules collide less frequently.
Explanation:
The decrease in temperature decreases the kinetic energy of the reactant molecules leading to decreased chances of collisions of the reactants for the formation of the products.
Write 36.82 correct to the nearest whole number.
Answer:
36.82 is 37 when you round it
Explanation:
:)
If a solution has a concentration of 12 M when the volume is 150 mL. What is the new concentration if you increase the volume to 600 mL?
A 150 mL solution with a concentration of 12 M whose volume is increased to 600 mL will have a new concentration of 3 M.
Stoichiometric problemAssuming the amount of solute remains constant, we can use the formula:
C1 x V1 = C2 x V2
where C1 is the initial concentration, V1 is the initial volume, C2 is the final concentration, and V2 is the final volume.
Plugging in the values, we get:
12 M x 150 mL = C2 x 600 mL
Solving for C2, we get:
C2 = (12 M x 150 mL) / 600 mL
C2 = 3 M
Therefore, the new concentration is 3 M.
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find the ph of the equivalence points when 28.9 ml of 0.0850 m h2so3 is titrated with 0.0372 m naoh.
At the equivalence point of the titration, the pH is 12.88. When 28.9 ml of 0.0850 m H₂SO₄ is titrated with 0.0372 m NaOH.
Given:
Volume of H₂SO₃ solution (V₁) = 28.9 mL
= 0.0289 L
Concentration of H₂SO₃ (C₁) = 0.0850 M
Volume of NaOH solution (V₂) = unknown
Concentration of NaOH (C₂) = 0.0372 M
H₂SO₄ is a diprotic acid, so it can donate two protons. The balanced equation for the reaction between H₂SO₃ and NaOH is as follows:
H₂SO₃ + 2NaOH → Na₂SO₃ + 2H₂O
From the equation, 1 mole of H₂SO₃ reacts with 2 moles of NaOH.
Use the stoichiometry of the reaction:
C₁V₁ = C₂V₂
0.0850 M × 0.0289 L = 0.0372 M × V2
V2 = (0.0850 M × 0.0289 L) / 0.0372 M
V2 = 0.0658 L
= 65.8 mL
Therefore, the volume of NaOH required to reach the equivalence point is 65.8 mL.
Since NaOH is a strong base, it fully dissociates in water to produce OH- ions. At the equivalence point, the moles of OH- ions will be equal to twice the moles of H₂SO₃ initially present.
Moles of H₂SO₃ = C1 × V1
Moles of H₂SO₃ = 0.0850 M × 0.0289 L
= 0.00246 moles
Moles of OH- ions = 2 × Moles of H₂SO₃
Moles of OH- ions = 2 × 0.00246 moles
= 0.00492 moles
Concentration of OH- ions = Moles of OH- ions / V₂
Concentration of OH- ions = 0.00492 moles / 0.0658 L
Concentration of OH- ions = 0.0749 M
pOH = -log10[OH-]
pOH = -log10(0.0749)
pOH = 1.12
pH + pOH = 14:
pH + 1.12 = 14
pH = 14 - 1.12
pH = 12.88
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20. at the same temperature, will the ph of a 0.001 m ca(oh)2 aqueous solution be the same, larger, or smaller than that of a 0.001 m naoh(aq)? briefly explain your reasoning
At the same temperature, the pH of a 0.001 M Ca(OH)2 aqueous solution will be higher than that of a 0.001 M NaOH(aq).
The pH value of a solution is determined by the concentration of hydrogen ions in the solution. Higher hydrogen ion concentration in a solution leads to lower pH values, while lower hydrogen ion concentration results in higher pH values. The chemical formulas of the two solutions are: Ca(OH)2(aq) → Ca2+(aq) + 2OH-(aq) NaOH(aq) → Na+(aq) + OH-(aq). The hydroxide ion (OH-) concentration of a Ca(OH)2 solution is twice that of a NaOH solution of equal concentration. This is due to the fact that 1 mole of Ca(OH)2 produces two moles of OH- ions, whereas 1 mole of NaOH produces only 1 mole of OH- ions. As a result, the pH of Ca(OH)2 is higher than that of NaOH.
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The half-life for Carbon-14 is 5614 years. An ancient piece of cloth is found to contain ¼ of its original Carbon-14. How old is the cloth? Describe or show in detail how you solved this.
Answer:
To determine the age of the ancient cloth, we can use the concept of radioactive decay and the half-life of Carbon-14.
Carbon-14 is a radioactive isotope of carbon, which decays over time into nitrogen-14 through beta decay. The half-life of Carbon-14 is 5614 years, which means that after 5614 years, half of the original amount of Carbon-14 in a sample will have decayed.
In this case, the cloth contains only ¼ of its original Carbon-14. This means that three half-lives have passed since the cloth was first created, as each half-life reduces the amount of Carbon-14 by half.
To determine the age of the cloth, we can use the following formula:
N = N0(1/2)^t/T
where N is the current amount of Carbon-14 in the cloth, N0 is the original amount of Carbon-14 in the cloth, t is the time that has passed, and T is the half-life of Carbon-14.
We know that N = ¼ N0, and T = 5614 years. Plugging these values into the formula, we get:
¼ N0 = N0(1/2)^(3/T)
Solving for t, we get:
t = (3/T) * log(2)
Substituting in T = 5614 years, we get:
t = (3/5614) * log(2) ≈ 1,684 years
Therefore, the cloth is approximately 1,684 years old.
In summary, we can use the concept of radioactive decay and the half-life of Carbon-14 to determine the age of the ancient cloth. By knowing the current amount of Carbon-14 in the cloth, we can calculate the time that has passed since it was first created using a simple formula. In this case, the cloth is approximately 1,684 years old.
(16) Balance the shown equation. If the mass of C6H₁0 is 25 g and the mass of O₂ is 25
g, what is the limiting reagent?
C6H10+
0₂_CO₂+
H₂O
20
Folg).
h
mal
C
H2 is the limiting reactant in this reaction. Water is generated when 5.00 g of H2 and 10.0 g of O2 react. Because there is 10.0 g of surplus reagent, 10.0 g of H2O is generated.
How to find maximum amount of product using limiting reactant?Calculate the amount of moles of product that can be generated from the limiting reactant using mole ratios. To get the equivalent mass of the product, multiply the number of moles by its molar mass. Divide the molar masses of each component to get the mass in moles. Create a balanced equation and calculate the molar ratio.
Examine the formula and compare the moles. In a chemical process, the limiting reagent is the reactant that will be totally consumed. The reaction cannot continue after that reactant is depleted. As a result, it prevents the reaction from proceeding. The surplus reagent is the reactant that may continue to react if the other was not consumed.
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mass fraction of water in a solution is 0.8. what is the volume of water containing 150g of sucrose
Answer:
The volume of water containing 150g of sucrose is 600 mL.
Step by step explanation:
To solve this problem, we need to first determine the total mass of the solution. We know that the mass fraction of water is 0.8, which means that water makes up 80% of the solution.
Therefore, the mass fraction of the other component (sucrose) is 0.2, or 20%.
Let's assume we have a total mass of 1 kg (1000 grams) of solution, then the mass of water in the solution would be:
Mass of water = 0.8 x 1000 grams = 800 gramsSince the mass of sucrose is 20% of the total mass,
we can calculate it as:
Mass of sucrose = 0.2 x 1000 grams = 200 grams
Now we can use the density of water to calculate the volume of water that contains 800 grams.
The density of water is approximately 1 gram per milliliter (g/mL).
Therefore, the volume of water that contains 800 grams is:
Volume of water = 800 grams / 1 g/mL = 800 mL
Finally, we can calculate the volume of water that contains 150 grams of sucrose by using the mass ratio of sucrose to water, which is:
150 grams of sucrose / 200 grams of sucrose = 0.75
This means that the volume of water containing 150 grams of sucrose is 0.75 times the volume of water in the entire solution:
Volume of water containing 150g of sucrose = 0.75 x 800 mL = 600 mL
Therefore, the volume of water containing 150g of sucrose is 600 mL.
A chocolate chip cookie recipe calls for 0. 050 moles of baking soda (sodium bicarbonate, NaHCO3).
How many grams should the chef mass out?
4.2 gram should the chef mass out of a chocolate chip cookie recipe calls for 0. 050 moles of baking soda. This calculated by using mole concept.
Mass is equal to the number of moles multiplied by the molar mass of substance. We know that the number of moles is equal to the actual given mass of the substance over its molar mass.
m = n x M.
The term molar mass of a chemical compound is defined as the ratio between the mass and the amount of substance of any sample of said compound. It is a bulk, not molecular, property of a substance.
According to the mole concept, one mole of a compound contains Avogadro's number that is 6.022 x 1023 of molecules or formula units of ionic compound. The molar mass of a compound defined as the mass of 1 mole of that substance. Generally we can say the number of grams per mole of a compound.
putting the value in the expression we get,
mass =84 × 0.050
=4.2 g.
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What is the name of the formula AuCN?
Answer:
The name of the formula AuCN is gold cyanide.
I WILL GIVE 35 POINTS TO THOSE WHO ANSWER THIS QUESTION RIGHT NOOOO SCAMS PLEASE
Answer:2, 7, 4, 6
Explanation:
2 C2H6 + 7 O2 → 4 CO2 + 6 H2O
citric acid is a triprotic weak acid. if 11.9 ml of 0.150 m naoh is required to reach the first equivalence point of a solution of citric acid how many ml of naoh are required to completely neutralize this solution?
35.7 ml of 0.150 M NaOH will be needed to completely neutralize the citric acid solution.
Citric acid is a triprotic weak acid, and 11.9 ml of 0.150 M NaOH is required to reach the first equivalence point of a solution of citric acid.
Citric acid, being a weak acid, is not completely ionized in solution. As a result, it will require more than 1 equivalent of base to neutralize it completely. So, it is necessary to calculate the number of equivalents present in the solution to answer the question. Let's first write the balanced chemical equation between citric acid (H3C6H5O7) and NaOH as follows:
H3C6H5O7 + NaOH → Na3C6H5O7 + H2O
For each mole of citric acid, three moles of NaOH are required to neutralize it completely. Since the citric acid solution is 0.150 M, there will be 0.150 moles of citric acid per liter of solution (Molarity = moles/liter).
Thus, the number of moles of citric acid present in 11.9 ml of solution can be calculated as follows: 0.150 moles of citric acid / 1000 ml of solution = X moles of citric acid / 11.9 ml of solution X = 0.001785 moles of citric acid Therefore, 3 times the number of moles of citric acid will be the number of moles of NaOH required to neutralize the citric acid completely. Therefore, the number of moles of NaOH required to neutralize the citric acid completely is as follows: 3 X 0.001785 moles of citric acid = 0.005355 moles of NaOH.
The volume of 0.150 M NaOH needed to contain 0.005355 moles of NaOH can be calculated as follows:
Molarity = moles/volume
Volume = moles / Molarity = 0.005355 moles / 0.150 M = 0.0357 L or 35.7 ml.
Therefore, 35.7 ml of 0.150 M NaOH will be needed to completely neutralize the citric acid solution.
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Help with this chem work ASAP PLEASE
Answer: you have to do x+axis than you will get ur answer
Explanation:During a chemical reaction, all of the atoms that make up the reactants rearrange to form the products.
7. Explain how water in the Earth's polar regions can produce water vapour even
when the temperature is very low.
Where energy from the sun is enough to break the bonds between water molecules in the ice and convert them directly into water vapor without passing through the liquid phase.
What is Sublimation?
Sublimation is a physical process in which a solid substance is transformed directly into a gas without passing through the liquid phase. In other words, sublimation occurs when a solid substance changes its state directly to a vapor state, bypassing the liquid state.
Sublimation occurs when the vapor pressure of a solid exceeds the atmospheric pressure, causing the solid to transform into a gas without melting. This process requires energy to break the intermolecular bonds holding the solid together. This energy is typically supplied through heating or a decrease in pressure.
Water in Earth's polar regions can produce water vapor even when the temperature is very low due to a process called sublimation. Sublimation is a phase transition from a solid directly to a gas, without passing through the liquid phase. This process occurs when the vapor pressure of the solid (in this case, ice) exceeds the atmospheric pressure.
In the polar regions, the air is very cold and dry, with low atmospheric pressure. When the sun shines on the ice or snow, it provides energy that causes the surface layer of the ice to evaporate directly into water vapor without melting into liquid water.
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What is Keq for the reaction 2SO₂(g) + O₂(g) O₂(g) = 2SO3(g)? O A. Kea OB. Keq о C. Kea- OD. Keq= [SO₂ 1² [SO₂ 1² [0₂] [SO,] [SO, [0,] [So, 1² [So, 1² [0₂] 2[SO] 2[S0₂ ][0₂]
The equilibrium constant (Keq) for the reaction 2SO2(g) + O2(g) 2SO3(g) is correctly expressed as Keq = [SO3]2 / ([SO2]2 [O2]).
In a reply, what does Keq mean?The ratio of the mathematical product of the concentrations of the products of a reaction to the mathematical product of the concentrations of the reactants of the reaction is known as the equilibrium constant (Keq). The balanced chemical equation causes each concentration to grow to the power of its corresponding coefficient.
What is the Keq value?Keq's "K" stands for "Constant," thus. At a specific temperature, the "eq" indicates that the reaction is at equilibrium. No matter what we would try to do with the concentrations, the value of this ratio remains at 0.0183.
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Hydrogen gas was cooled from 15 C to -15 C. Its new volume is 75. 0mL. What was its original volume
When Hydrogen gas was cooled from 15 C to -15 C by use of the formula we get the value of the original volume as 671.875 mL.
Charles' Law describes the link that exists between the volume and temperature of a specific amount of ideal gas kept at constant pressure.
This rule says that for a given amount of gas at constant pressure, as the temperature rises, the volume of the gas rises, and as the temperature falls, the volume of the gas falls because temperature is directly proportional to the energy of movement of the gas molecules. That is, the volume of the gas is precisely proportional to its temperature.
The kinetic energy of a gas's molecules is exactly proportional to its absolute temperature, according to the kinetic theory of gases. The kinetic energy of the component molecules reduces as the temperature of the gas falls.
We have,
v1 t1 = v2 t2
v1 = x
v2 = 750 mL
t1 = 15 + 273 = 288 K
t2 = -15 + 273 = 258 K
putting the values in the equation,
x(288) = (750)(258)
x = 193500 / 288
x = 671.875 mL
So the original volume was 671.875 mL.
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What is the number of ions in 0. 20 mol of (NH4)3PO4?
The number of ion in 0.2 mole of (NH₄)₃PO₄ is found to be 2.4 x 10²³.
The number of ions and the number of moles of a compound are related to each other as,
Moles = Number of ions/Avogadro number = molar mass/given mass
Avogadro number = 6.022 x 10²³
Here, (NH₄)₃PO₄ will give two ions after dissociation will give two ions, so, the number of moles will be equal to two times of the number of particles of the compound. So, the total moles of ions will be 0.4 moles.
Putting all the values is the formula,
6.022 x 10²³ x 0.4 = Number of ions
So, finally after solving, we get, 2.4 x 10²³ as the number of ions in the compound of (NH₄)₃PO₄.
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65g of NaCl are placed in a beaker and enough water is added to fill the beaker to 1 liter. What is the molar out of this solution? Round answer to the nearest hundredths
The molarity of the solution is 1.11 M (rounded to 2 decimal places). To find the molarity (M) of the solution, we need to know the number of moles of NaCl and the volume of the solution in liters.
How do molality and molarity differ?Although a solution's molarity is determined by the moles of solute divided by the volume of the solution in litres, a solution's molality is determined by the moles of solute divided by the mass of the solvent in kilogrammes.
The number of moles of NaCl can be calculated using its molar mass and the given mass of NaCl:
Number of moles = mass / molar mass
The molar mass of NaCl is 58.44 g/mol (22.99 g/mol for Na + 35.45 g/mol for Cl).
Number of moles of NaCl = 65 g / 58.44 g/mol = 1.1138 mol (rounded to 4 decimal places)
The volume of the solution is given as 1 liter.
Now we can use the formula for molarity:
Molarity (M) = number of moles / volume (in liters)
M = 1.1138 mol / 1 L = 1.1138 M (rounded to 2 decimal places)
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22. 0 mL of stock solution is used
to produce a. 458 M solution after
dilution with 50. 0 mL of water. What
is the molarity of the stock solution?
The molarity of the stock solution is 1.05 M.
We can use the equation for dilution to solve this problem:
M₁V₁ = M₂V₂
where M₁ is the initial molarity (of the stock solution), V₁ is the initial volume (in mL) of the stock solution, M₂ is the final molarity (after dilution), and V₂ is final volume (in mL) of diluted solution.
In this case, we know that V₁ = 22.0 mL, V₂ = 50.0 mL, and M₂ = 0.458 M. We want to solve for M₁.
Plugging in the values, we get:
M₁(22.0 mL) = (0.458 M)(50.0 mL)
Simplifying and solving for M₁, we get:
M₁ = (0.458 M)(50.0 mL) / (22.0 mL)
M₁ = 1.05 M
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Calculate the molarity of a solution that contains 0. 07 mol of K2S in 1. 98 L of solution
The molarity of a solution that contains 0.07 mol of K2S in 1.98 L of solution is 0.035 M.
The amount of moles of solute per litre of solution is known as molarity (M).
To calculate the molarity of the given solution, we first need to determine the number of moles of K2S in the solution:
moles of K2S = 0.07 mol
The solution's volume in litres must then be calculated:
volume of solution = 1.98 L
Now we can use the formula for molarity:
Molarity = moles of solute / volume of solution
Substituting the given values:
Molarity = 0.07 mol / 1.98 L
Molarity = 0.035 M
Therefore, the molarity of the solution is 0.035 M.
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A mass of 100 g of NAN03 is dissolved in 100 g of water at 80°C is the solution is saturated or unsaturated?
NaNO3 has a solubility of 80 grams per 100 grams of water at 10oC. (It seems to be somewhat less than 80 grams, but after rounded off, it's practically 80 grams.)
What kind of solution is formed when 80 g of NaNO3 is dissolved in 100 g of water at 10 degrees Celsius?• Assume we just required 60 mL of NaNO3 solution at 10oC. Further Information: Because the solubility of solids rises with temperature, solutes whose curves go higher with increasing temperature are often solids.
Thus the solution in issue is saturated, or even somewhat supersaturated — but you're probably correct.
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two isotopes of carbon, carbon-12 and carbon-13, have masses of 19.93 x 10^-27 kg and 21.59 x 10^-27 kg, respectively. these two isotopes are singly ionized ( e) and each is given a speed of 6.667 x 10^5 m/s. the ions then enter the bending region of a mass spectrometer where the magnetic field is 0.85 t. determine the spatial separation between the two isotopes after they have traveled through a half-circle
The spatial separation between Carbon-12 and Carbon-13 each with a given speed 6.667 x 10^5 m/s is 28.2 x 10^-7 m
The spatial separation between two isotopes of carbon, carbon-12 and carbon-13, can be determined using Mass Spectrometry. Mass Spectrometry uses a combination of magnetic and electric fields to separate ions of different masses based on their charge-to-mass ratio.
The two isotopes of carbon, each singly ionized (e), have a speed of 6.667 x 10^5 m/s and enter the bending region of a mass spectrometer, where the magnetic field is 0.85 t. After they have traveled through a half-circle, the spatial separation between the two isotopes will be calculated using the following formula:
Separation (S) = Speed (V) x Magnetic Field (B) x Time (T)
In this case, Time (T) = (π/2)/V = (π/2)/(6.667 x 10^5 m/s) = 4.5 x 10^-7 s
Therefore, the spatial separation between the two isotopes after they have traveled through a half-circle will be:
Separation (S) = 6.667 x 10^5 m/s x 0.85 t x 4.5 x 10^-7 s = 28.2 x 10^-7 m
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Hello can someone please help me with this please
7. The blood on the right side in Model 1 only contains 50% oxygen, but it has 95% total gases.
a. What gas other than oxygen do you think might be dissolved in the blood on the right side of the heart?
b. What process produced this gas?
c. What happens to this gas before the blood enters the left side of the heart?
8. Looking at the arrows on Model 1, how would you describe the flow pattern of the blood inside the circulatory system?
9. What features might the entrances and exits to the heart need in order to maintain this flow pattern?
7. a. Carbon dioxide (CO2) is the gas that might be dissolved in the blood on the right side of the heart.
b. CO2 is produced as a waste product of cellular respiration, which is the process by which cells produce energy.
c. Before the blood enters the left side of the heart, CO2 is transported from the tissues to the lungs, where it is exchanged for oxygen.
8. The flow pattern of the blood inside the circulatory system is unidirectional, with the blood flowing from the right atrium to the right ventricle, then to the lungs, and from the lungs to the left atrium and left ventricle, and finally to the body.
What features are needed by the entrances and exits to the heart in order to maintain a unidirectional flow pattern??The entrances and exits to the heart need valves to maintain the unidirectional flow pattern of the blood.
The atrioventricular valves (tricuspid valve on the right side and mitral valve on the left side) prevent the backflow of blood from the ventricles to the atria, while the semilunar valves (pulmonary valve on the right side and aortic valve on the left side) prevent the backflow of blood from the arteries to the ventricles.
The heart also needs a pacemaker to coordinate the contraction of the atria and the ventricles to ensure the efficient pumping of blood.
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the table shows a list of compounds that are gases at stp identify the type of bonding (ionic, covalent, or metallic) for each compound listed
hydrogen sulfide (H2S)
Ammonia (NH3)
Methane (CH4)
Nitrous Oxide (N2O)
Answer:
hydrogen sulfide (H2S): covalent
Ammonia (NH3): covalent
Methane (CH4): covalent
Nitrous Oxide (N2O): covalent
Explanation:
o Hydrogen sulfide (H2S is a covalent compound that is composed out of 2 hydrogen atoms.
o Because one nonmetal combines with another nonmetal to form a covalent compound, ammonia (NH3) is a covalent compound.
o CH4 (Methane) is a covalent (nonpolar covalent) compound because when two nonmetals combine, they form a covalent compound.
o Nitrous Oxide (N2O) is a covalent bond. Since the N-N-O bond angle is 1800, the central N makes one covalent bond with N and O.
Answer:
All of the compounds listed above have covalent bonding.
according to science direct,
A covalent bond consists of the mutual sharing of one or more pairs of electrons between two atoms. These electrons are simultaneously attracted by the two atomic nuclei.
all of the compounds above share 1 or more pairs of electrons.
Which set of coefficients, when used in the order listed, will balance the following skeleton equation for the combustion of benzene, C6H6(l)?
___C6H6(l) + ___O2(g) --> ___CO2(g) + ___H2O(g)
Answer:
2, 15, 12, 6.
Explanation: