Answer:
7.3
Explanation:
If the glaciers melted at a rate of 5% per year, how long will it take 50% of the glaciers to melt?
Determine the formula of the hydrated salt with iron 20. 14%, oxygen 23. 02%,sulphur11. 51%,water 45. 32% and molecular mass ofsalt is278
To determine the formula of the hydrated salt, we need to first find the empirical formula by determining the smallest whole number ratio of the elements present in the compound.
Then, we can use the molar mass of the empirical formula and the percentage composition of the water to find the molecular formula.
Step 1: Find the empirical formula
Assuming 100 g of the compound, we can calculate the masses of each element present:
- Iron: 20.14 g
- Oxygen: 23.02 g
- Sulphur: 11.51 g
- Water: 45.32 g
Next, we need to convert these masses to moles:
- Iron: 20.14 g / 55.85 g/mol = 0.360 mol
- Oxygen: 23.02 g / 16.00 g/mol = 1.439 mol
- Sulphur: 11.51 g / 32.06 g/mol = 0.359 mol
- Water: 45.32 g / 18.02 g/mol = 2.515 mol
We can then divide each mole value by the smallest mole value to get the mole ratio:
- Iron: 0.360 mol / 0.359 mol ≈ 1
- Oxygen: 1.439 mol / 0.359 mol ≈ 4
- Sulphur: 0.359 mol / 0.359 mol = 1
- Water: 2.515 mol / 0.359 mol ≈ 7
The mole ratio is approximately 1:4:1:7, which gives us the empirical formula:
FeSO4·7H2O
Step 2: Find the molecular formula
The empirical formula mass of FeSO4·7H2O is:
(55.85 + 32.06 + 4(16.00)) + 7(18.02) = 278.00 g/mol
We know from the problem that the molecular mass of the salt is 278 g/mol, so the empirical formula is also the molecular formula. Therefore, the formula of the hydrated salt is FeSO4·7H2O.
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You have a solution of copper sulfate with a volume of 2 dm3. The concentration of the solution is 12 g/dm3. What is the mass of the copper sulfate?
The mass of copper sulfate in the given solution is 24 grams.
Copper sulfate, also known as cupric sulfate or copper (II) sulfate, is a chemical compound that consists of copper ions and sulfate ions. It has the molecular formula CuSO4 and is commonly used in agriculture, mining, and chemical industries.
In the given scenario, we have a solution of copper sulfate with a volume of 2 dm3 and a concentration of 12 g/dm3. This means that for every 1 dm3 of the solution, there are 12 grams of copper sulfate present. To find the mass of copper sulfate in the entire 2 dm3 solution, we can use the following formula:
Mass = Concentration x Volume
Substituting the given values, we get:
Mass = 12 g/dm3 x 2 dm3
Mass = 24 g
Therefore, the mass of copper sulfate in the given solution is 24 grams.
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Find the volume of 53.5 g of O2 at 30.1°C and 110.0 kPa. Round to the nearest tenth.
The volume of 53.5 g of O₂ at 30.1°C and 110.0 kPa is 1 m³ approximately
The Charles Law: What is it explained?According to Charles' Law, while pressure is maintained constant, the volume of a given amount of gas varies in direct proportion to the absolute temperature of the gas. The Kelvin scale is used to measure temperature to determine the absolute temperature.
To find the volume of a gas, we can use the Ideal Gas Law:
PV = nRT
where P is the pressure of the gas, V is the volume of the gas, n is the number of moles of gas, R is the universal gas constant, and T is the temperature of the gas in Kelvin.
First, we need to convert the given temperature of 30.1°C to Kelvin:
T = 30.1°C + 273.15 = 303.25 K
Next, we need to determine the number of moles of O₂ present. We can use the molar mass of O₂ to convert from grams to moles:
molar mass of O₂ = 32.00 g/mol
moles of O₂ = 53.5 g / 32.00 g/mol = 1.671875 mol
Now we can rearrange the Ideal Gas Law to solve for V:
V = nRT / P
V = 1.671875 × 8.3145 × 303.25 /110 k × 1000 Pa / kPa
V = 0.062878 m³
Finally, we round the answer to the nearest tenth: (rounded to one decimal place) V = 1 m³
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10. karl is at the gym exercising. after a while on the treadmill, he gets a cramp in his legs. karl blames
lactic acid building up in his muscles. what is the chemical equation for this process?
a. c.h20 -2c,h,o,
b. 2c,h,o, -c,h,206
c. ch2o2ch,oh + 2002
Karl's leg cramp is unlikely to be caused by lactic acid, and the chemical equation for the process he is thinking of is C₆H₁₂O₆ + 2 ATP → 2 C₃H₃O₃⁻ + 2 NADH, option B is correct.
Karl's assumption that lactic acid is responsible for his leg cramp is a common misconception. In reality, lactic acid is a byproduct of anaerobic respiration, which occurs when there is not enough oxygen available to support aerobic respiration.
The process of glycolysis, which is the breakdown of glucose to pyruvate with the help of ATP. This process occurs in the cytoplasm of cells and is the first step in cellular respiration. The two pyruvate molecules produced by glycolysis can then be further broken down in the mitochondria to produce ATP through aerobic respiration, option B is correct.
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The complete question is:
Karl is at the gym exercising. After a while on the treadmill, he gets a cramp in his legs. Karl blames lactic acid building up in his muscles. What is the chemical equation for this process?
A) C₆H₁₂O₆ + 2 ADP + 2 Pi → 2 C₃H₆O₃ + 2 ATP
B) C₆H₁₂O₆ + 2 ATP → 2 C₃H₃O₃⁻ + 2 NADH
C) C₃H₃O₃⁻ + CoA + NAD+ → Acetyl-CoA + CO₂ + NADH
D) Acetyl-CoA + 3 NAD+ + FAD + GDP + Pi → 2 CO₂ + 3 NADH + FADH₂ + GTP
Using the formula m1v1=m2v2 , you have a 0.5 m mgso4 stock solution available.
calculate the volume of the stock solution needed to make 2.0 l of 0.20m mgso4.
0.5 l
04.0l
0.9 l
kid 0.8 l
We need 0.4 L of the 0.5 M MgSO₄ stock solution to make 2.0 L of 0.20 M MgSO₄.
To calculate the volume of the 0.5 M MgSO₄ stock solution needed to make 2.0 L of 0.20 M MgSO₄, we will use the formula m₁v₁ = m₂v₂.
1. Identify the given values:
m₁ = 0.5 M (concentration of the stock solution)
m₂ = 0.20 M (concentration of the desired solution)
v₂= 2.0 L (volume of the desired solution)
2. Plug the given values into the formula:
(0.5 M)(v₁) = (0.20 M)(2.0 L)
3. Solve for v1 (volume of the stock solution needed):
v₁= (0.20 M)(2.0 L) / (0.5 M)
v₁= 0.4 L
So, you need 0.4 L of the 0.5 M MgSO₄ stock solution to make 2.0 L of 0.20 M MgSO₄.
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How do I solve all of these?
A. The volume (in L) is 12.80 L
B. The mole is 0.035 mole
C. The temperature is 407.57 °C
D. The pressure is 126.98 atm
A. How do i determine the volume?The volume can be obtained as follow:
Pressure (P) = 5.44 atmNumber of mole (n) = 2 molesTemperature (T) = 151 °C = 151 + 273 = 424 KGas constant (R) = 0.0821 atm.L/molKVolume (V) =?PV = nRT
5.44 × V = 2 × 0.0821 × 424
Divide both sides by 5.44
V = (2 × 0.0821 × 424) / 5.44
Volume (V) = 12.80 L
B. How do i determine the mole?The number of mole can be obtained as follow:
Pressure (P) = 0.250 atmVolume (V) = 1.80 LTemperature (T) = 155 KGas constant (R) = 0.0821 atm.L/molKNumber of mole (n) = ?PV = nRT
0.250 × 1.80 = n × 0.0821 × 155
Divide both sides by (0.0821 × 155)
n = (0.250 × 1.80) / (0.0821 × 155)
Number of mole (n) = 0.035 mole
C. How do i determine the temperature?The temperature can be obtained as follow:
Pressure (P) = 4.47 atmVolume (V) = 26 LGas constant (R) = 0.0821 atm.L/molKNumber of mole (n) = 2.08 molesTemperature (T) = ?PV = nRT
4.47 × 26 = 2.08 × 0.0821 × T
Divide both sides by (2.08 × 0.0821)
T = (4.47 × 26) / (2.08 × 0.0821)
T = 680.57 K
Subtract 273 to obtain answer in °C
T = 680.57 - 273 K
Temperature (T) = 407.57 °C
D. How do i determine the pressure?The pressure can be obtained as follow:
Volume (V) = 2.25 LNumber of mole (n) = 10 molesTemperature (T) = 75 °C = 75 + 273 = 348 KGas constant (R) = 0.0821 atm.L/molKPressure (P) = ?PV = nRT
P × 2.25 = 10 × 0.0821 × 348
Divide both sides by 2.25
P = (10 × 0.0821 × 348) / 2.25
Pressure (P) = 126.98 atm
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How do tectonic events impact the flow of radiant energy
Tectonic events can impact the flow of radiant energy in various ways. One of the primary ways is through the formation of mountains and the alteration of landforms.
When tectonic plates collide and push against each other, they can form mountains, which can affect the flow of radiant energy. Mountains can block or redirect the flow of wind, which in turn can affect the amount of solar radiation that reaches the earth's surface.
They can also create changes in atmospheric pressure and temperature that impact the movement of air masses, which can affect the flow of radiant energy.
Tectonic events can also impact the flow of radiant energy by altering the composition of the atmosphere.
For example, volcanic eruptions can release large amounts of sulfur dioxide and other particles into the atmosphere, which can reflect and scatter incoming solar radiation, leading to cooling of the earth's surface.
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Explain why I2 is a solid, Br2 is a liquid but Cl2and F2 are gases even though they are all Halogens
I₂ is a solid, Br₂ is a liquid, while Cl₂ and F₂ are gases because of their increasing molecular size and decreasing strength of their intermolecular forces.
The main factor influencing the physical states of halogens is the strength of the intermolecular forces (Van der Waals forces) between their molecules.
As you move down Group 17 in the periodic table (from F₂ to I₂), the size and mass of the halogen molecules increase. Larger molecules have a greater number of electrons, leading to stronger dispersion forces (a type of Van der Waals forces) between molecules.
For I₂, these forces are strong enough to hold the molecules together in a solid form. For Br₂, the forces are slightly weaker but still strong enough to form a liquid. However, in Cl₂ and F₂, the forces are weaker, allowing the molecules to be in a gaseous state at room temperature.
In summary, the physical states of the halogens depend on the strength of their intermolecular forces, which is influenced by the size and mass of the molecules.
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A 50. 0 ml. Soap bubble is blown at standard pressure. When a thunderstorm passes later in the day, the pressure becomes 700. 0 mmHg. Will the bubble get bigger or smaller? What is its new volume?
The new volume of the soap bubble is approximately 54.29 mL. Since the volume has increased, the bubble will get bigger when the pressure drops to 700.0 mmHg during the thunderstorm.
A 50.0 mL soap bubble is blown at standard pressure. When a thunderstorm passes later in the day, the pressure becomes 700.0 mmHg. To determine if the bubble will get bigger or smaller and to find its new volume, we will use Boyle's Law, which states that P1V1 = P2V2, where P1 and V1 are the initial pressure and volume, and P2 and V2 are the final pressure and volume.
Step 1: Convert the initial and final pressures to the same unit. The standard pressure is 1 atmosphere (atm), which is equivalent to 760 mmHg. The final pressure is given as 700.0 mmHg.
Step 2: Apply Boyle's Law. Let P1 = 760 mmHg, V1 = 50.0 mL, and P2 = 700.0 mmHg. We will solve for V2, the new volume.
760 mmHg * 50.0 mL = 700.0 mmHg * V2
Step 3: Solve for V2.
V2 = (760 mmHg * 50.0 mL) / 700.0 mmHg
V2 ≈ 54.29 mL
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What volume (in ml) of 11. 7 m hcl would be required to make 500. 0 ml of a solution with a ph of 3. 20?
We need a volume of 60.4 ml of 11.7 M HCl to make a 500.0 ml solution with a pH of 3.20.
To calculate the required volume of 11.7 M HCl to make a 500.0 ml solution with a pH of 3.20, we need to use the Henderson-Hasselbalch equation, which relates the pH of a solution to its pKa and the ratio of the concentrations of the conjugate base and acid.
Using the Henderson-Hasselbalch equation:
pH = pKa + log([A⁻] ÷ [HA])
where [A-] / [HA] is the ratio of the concentration of the conjugate base (Cl⁻) to the concentration of the acid (H⁺).
Rearranging the equation, we can solve for [H⁺]:
[H⁺] = [tex]10^{(pH - pKa)}[/tex]
[H⁺] = [tex]10^{(3.20 - (-1))}[/tex]
= [tex]10^{-3.20} + mol/L[/tex]
Since the concentration of HCl is equal to the concentration of [H⁺] in solution, we can calculate the moles of HCl required to make the solution:
moles of HCl = concentration of HCl × volume of solution
moles of HCl = [tex](10^{-3.20})[/tex] × (0.5 L)
= 7.08 × 10⁻⁴ mol
Finally, we can calculate the required volume of 11.7 M HCl:
volume of HCl = moles of HCl ÷ concentration of HCl
volume of HCl = (7.08 × 10⁻⁴ mol) ÷ (11.7 mol/L)
= 0.0604 L
= 60.4 ml
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A sample of river water taken near to a factory
shows a pH of 5.
al Do you think this represents a pollution
problem? Give reasons for your answer.
b What other evidence might you need to
consider before reaching a conclusion?
a) A pH of 5 for river water near a factory does suggest a potential pollution problem. The normal pH range for most natural waters is around 6.5-8.5. pH values below 6.5 can indicate acidification, which can be caused by pollutants such as sulfur dioxide and nitrogen oxides from industrial activities, or from natural sources such as acid rain.
What is the river water about?A pH of 5 is more acidic than most natural waters and could indicate the presence of acidic pollutants in the water.
Therefore, in terms of b) Other evidence that would be useful to consider before reaching a conclusion about whether the pH of 5 represents a pollution problem includes:
Information about the specific factory located near the river and the activities that take place there. This could help to identify any potential sources of pollutants that could be causing the decrease in pH.Water quality testing for other parameters such as dissolved oxygen, temperature, and nutrient levels. This could help to identify other potential sources of pollution, and could help to determine the overall health of the river ecosystem.A comparison of the pH of the river water at different times of year, and at different locations along the river. This could help to identify any seasonal or regional patterns in the pH levels, which could be related to natural factors such as rainfall or the geology of the area.Read more about river water here:
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An equilibrium mixture at 425°C is found
to consist of 1.83 × 10-3 mol/L of H2,
3.13 × 10-3 mol/L of I2, and 1.77 × 10-2 mol/L
of HI. Calculate the equilibrium constant, K, for
the reaction H2(g) + I2(g) ⇄ 2HI(g).
The equilibrium constant, K, for the reaction H2(g) + I2(g) ⇄ 2HI(g) can be calculated using the expression K= [HI]2/([H2][I2]). Since the concentrations of H2, I2, and HI are given in the question, we can calculate the equilibrium constant, K, for the reaction.
K = [HI]2/([H2][I2]) = (1.77 × 10-2)2/((1.83 × 10-3)(3.13 × 10-3)) = 4.43 × 104. Therefore, the equilibrium constant, K, for the reaction H2(g) + I2(g) ⇄ 2HI(g) at 425°C is 4.43 × 104.
Using the specified concentrations of H2, I2, and HI, it appears that you have correctly calculated the equilibrium constant, K, for the reaction H2(g) + I2(g) 2HI(g) at 425°C. The ratio of the concentrations of the reactants and products at equilibrium, K, is represented by each concentration being raised to the power of its stoichiometric coefficient.
The concentration of the product, HI, is preferred above the concentrations of the reactants, H2 and I2, at equilibrium, as shown by the value of K = 4.43 104 in this instance. This suggests that at equilibrium, the forward reaction—the creation of HI—is preferred.
It is significant to remember that the equilibrium constant, K, is temperature-dependent, and that temperature changes affect K's value.
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Do you think humans will ever be able to forecast severe weather with 100% accuracy? What challenges do we face in developing technology that can do so? Besides forecasting tools, what other technology is needed to prevent severe storms from causing disasters? Do you think all countries have the financial capability to support the development and operation of these technologies? If not, do you think there is an ethical obligation for countries with more financial resources to help poorer countries access these technologies? ANSWER CORRECTLY. ANSWER FAST PLSSSS
Weather forecasting has substantially improved thanks to technical and data analytic advancements, but there are still a lot of intricate and dynamic aspects that can influence weather patterns, such as changes in air pressure, temperature, and humidity.
It is challenging to forecast a storm's precise trajectory and strength due to the possibility of unforeseen events and anomalies. The effects of catastrophic weather occurrences can be mitigated and forecasting accuracy can be increased with the help of ongoing technical and scientific developments.
In addition to forecasting technologies, infrastructure should be resilient to the effects of powerful storms and early warning systems that can alert people to approaching danger from severe weather should be available.
Not all countries have the financial means to support the development and application of these technologies. It is morally right for developed countries to help less developed ones obtain this technology.
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In the following acid-base reaction hpo42- is the_____________
In the following acid-base reaction, hpo₄²⁻ is the base.
This can be seen as it accepts a proton (H⁺) from H₂O to form the conjugate acid, H₂PO₄⁻. The other reactant, H₂O, donates the proton, making it the acid in the reaction. It is important to note that in an acid-base reaction, the species that donates a proton is the acid and the species that accepts the proton is the base.
The strength of the acid and base can also be determined by the equilibrium constant of the reaction. The larger the equilibrium constant, the stronger the acid or base. In this particular reaction, hpo₄²⁻ is a weak base, as it only partially accepts the proton from H₂O.
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Which statements correctly describe the strength of an acid or base? Select all that apply.
The greater the hydroxide ion concentration, the stronger the base.
The greater the hydronium ion concentration, the stronger the base.
The greater the hydroxide ion concentration, the stronger the acid.
The greater the hydronium ion concentration, the stronger the acid.
The statements that correctly describe the strength of an acid or base are:
The greater the hydroxide ion concentration, the stronger the base.The greater the hydronium ion concentration, the stronger the acid.What is an acid?An acid is a chemical that donates hydrogen ions, whose addition to an existing solution results in increased acidity.
According to the conventional definition of acids, they are compounds which discharge positively charged hydrogen ions when mixed with water. Acids have a sour flavor and possess pH levels below 7.
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Using the following balanced equation, how many moles of NaCl can be produced from 0.314 moles of Na3PO4?
equation : 3 FeCl2 + 2 Na3PO4 6 NaCl + Fe3(PO4)2
Answer: 0.942 moles of NaCl
Explanation:
for every 2 moles of Na3PO4 that react, 6 moles of NaCl form
therefore, to find how many moles of NaCl for we use this formula:
0.314 moles Na3PO4 * (6/2) = 0.942 moles of NaCl
if i add 45.0 g of sodium chloride to 500.0 g of water, what will be the melting point and the boiling point of the solution? assume the freezing point and boiling point of water are exactly 0 oc and 100 oc, respectively.
If we add 45.0 g of sodium chloride to 500.0 g of water, the melting point is - 5.7 °C and the boiling point of the solution is 101.5 °C.
The mass of the NaCl = 45 g
The mass of the water = 500 g
The moles of the NaCl = mass / molar mass
= 45 / 58.44
= 0.770 mol
The molality is expressed as :
b = moles of solute / mass of solvent in kg
b = 0.770 / 0.5
b = 1.54 m
The boiling-point elevation :
ΔTb = 2 × 0.512 × 1.54
= 1.5 ° C
The boiling point, Tb = 100°C + 1.5 °C
= 101.5 °C
The expression is as :
ΔTf = 2 × 1.86 × 1.54
= 5.7 °C
The melting point = 0 - 5.7
= - 5.7 °C
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A sample of graphite with a mass of 15.0 grams drops from an initial temperature of 22°C to a
final temperature of 12°C. Calculate how much heat was transferred, and state whether it was
gained or lost based on the sign of your answer.
Answer:
106.5 J, and it was lost.
Explanation:
To calculate the amount of heat transferred, we can use the following formula:
Q = m * c * ΔT
where Q is the amount of heat transferred, m is the mass of the substance, c is the specific heat capacity of the substance, and ΔT is the change in temperature.
For graphite, the specific heat capacity is approximately 0.71 J/g°C.
So we have:
Q = 15.0 g * 0.71 J/g°C * (-10°C)
Q = -106.5 J
The negative sign of the answer indicates that the graphite lost heat, since its temperature decreased. Therefore, the heat was transferred from the graphite to its surroundings.
So the amount of heat transferred from the graphite was 106.5 J, and it was lost.
16. a solution contains 15. 0 g of naoh in 115. 0 ml of h20. the molarity would be:
(1l = 1000 ml)
The molarity of the solution containing 15.0 g of NaOH in 115.0 mL of H₂O is 3.26 M.
To calculate the molarity of the solution, we first need to convert the mass of NaOH and the volume of water to moles and liters, respectively.
First, we need to find the number of moles of NaOH in 15.0 g. The molar mass of NaOH is 40.00 g/mol, so:
15.0 g NaOH x (1 mol NaOH/40.00 g NaOH) = 0.375 mol NaOH
Next, we need to convert the volume of water from milliliters to liters:
115.0 mL H₂O x (1 L/1000 mL) = 0.115 L H₂O
Now we can calculate the molarity of the solution:
Molarity = moles of solute/liters of solution
Molarity = 0.375 mol NaOH / 0.115 L H₂O
Molarity = 3.26 M
Therefore, the molarity of the solution is 3.26 M.
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17. saccharin, an artificial sweetener that is 3000 times sweeter than sucrose, is composed of
45.90% carbon, 2.73% hydrogen, 26.23% oxygen, 7.65% nitrogen, and 17.49% sulfur. is the molecular formula of saccharin (a) c14h10o6n2s2, (b) csh,ons, (c) c&h9o2ns, and following orition: com 12.0%
(d) c;h5o3ns?
Saccharin, an artificial sweetener that is 3000 times sweeter than sucrose, is composed of a) C₁₄H₁₀O₆N₂S₂.
45.90% carbon, 2.73% hydrogen, 26.23% oxygen, 7.65% nitrogen, and 17.49% sulfur. is the molecular formula of saccharin.
To determine the molecular formula of saccharin, we first need to calculate the empirical formula using the given percentages of each element.
Assuming we have 100 grams of saccharin, we have:
Carbon: 45.90 g / 12.01 g/mol = 3.82 mol
Hydrogen: 2.73 g / 1.01 g/mol = 2.70 mol
Oxygen: 26.23 g / 16.00 g/mol = 1.64 mol
Nitrogen: 7.65 g / 14.01 g/mol = 0.55 mol
Sulfur: 17.49 g / 32.07 g/mol = 0.55 mol
We can divide each value by the smallest one, which is 0.55 mol, to get the following ratios:
Carbon: 3.82 / 0.55 = 6.95
Hydrogen: 2.70 / 0.55 = 4.91
Oxygen: 1.64 / 0.55 = 2.98
Nitrogen: 0.55 / 0.55 = 1
Sulfur: 0.55 / 0.55 = 1
The resulting ratios are close to whole numbers, so we can assume the empirical formula to be C₇H₅NO₃S. To find the molecular formula, we need to determine the actual molecular mass of saccharin.
The empirical formula mass of C₇H₅NO₃S is approximately 183 g/mol. The molecular mass of saccharin is known to be around 452 g/mol, so we can calculate the ratio of the molecular mass to the empirical formula mass:
452 g/mol / 183 g/mol = 2.47
This means that the molecular formula is 2.47 times the empirical formula, or:
C₇H₅NO₃S * 2.47 = C₁₇H₁₃N₂O₅S
Therefore, the molecular formula of saccharin is (a) C₁₄H₁₀O₆N₂S₂. The other options (b) CSH,ONS, (c) C&H₉O₂NS, and (d) C;H₅O₃NS are not correct.
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1. when we react 0.600 mol of mg3n2 with 4.00 mol of h20, which is the limiting
reactant? mg3n2 (s) + 6 h20 (1) --> 3mg(oh)2 (aq) + 2nh3(g)
Mg₃N₂ will be completely consumed, and there will be some H₂O left over after the reaction is complete.
To determine the limiting reactant, we need to compare the number of moles of each reactant present to the stoichiometric ratio in the balanced equation.
From the balanced equation, we see that for every 1 mole of Mg₃N₂, 6 moles of H₂O are required. Therefore, the stoichiometric ratio of Mg₃N₂ to H₂O is 1:6.
To find out which reactant is limiting, we can calculate the amount of products that each reactant could produce.
For Mg₃N₂:
0.600 mol Mg₃N₂ x (3 mol Mg(OH)₂ / 1 mol Mg₃N₂) = 1.80 mol Mg(OH)₂
For H₂O:
4.00 mol H₂O x (3 mol Mg(OH)₂ / 6 mol H₂O) = 2.00 mol Mg(OH)₂
Since Mg₃N₂ can only produce 1.80 mol Mg(OH)₂, which is less than the amount that H₂O can produce (2.00 mol), Mg₃N₂ is the limiting reactant.
Therefore, Mg₃N₂ will be completely consumed, and there will be some H₂O left over after the reaction is complete.
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The following reaction occurs when a burner on a gas stove is lit:
CH4(g) + 2O2(g) ⇄ CO2(g) + 2H20(g)
Evaluate the following statements and select the correct grouping. True statements are marked with a T, and false statements are marked with an F.
The system cannot reach equilibrium because it is not a closed system.
Increasing the concentration of the CH4 will increase the production of CO2 and water.
Increasing the temperature of the flame will increase the production of CO2 and water.
Adding CO2 will increase the volume of methane and oxygen
A sample of nitrogen gas has a pressure of 6. 00 kpa at 540 K. If the volume does not change, what will the pressure bat at 250. 0 K?
The pressure of the nitrogen gas at 250.0 K will be 2.78 kPa.
To find the pressure of the nitrogen gas at 250.0 K, we will use the combined gas law formula:
P₁/T₁ = P₂/T₂
Where P₁ is the initial pressure (6.00 kPa), T₁ is the initial temperature (540 K), P₂ is the final pressure (which we want to find), and T₂ is the final temperature (250.0 K).
Since the volume does not change, we can use this simplified formula.
Step 1: Rearrange the formula to solve for P₂:
P₂ = (P₁ × T₂) / T₁
Step 2: Plug in the given values and calculate P₂:
P₂ = (6.00 kPa × 250.0 K) / 540 K
Step 3: Calculate P₂:
P₂ = 1500 / 540 = 2.78 kPa (rounded to two decimal places)
So, the pressure of the nitrogen gas at 250.0 K will be 2.78 kPa.
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Carbonyl bromide, cobr2, can be formed by reacting co with br2. a mixture of 0.400 mol co, 0.300 mol br2, and 0.0200 mol cobr2 is sealed in a 5.00l flask. calculate equilibrium concentrations for all gases, given that the kc
To calculate the equilibrium concentrations, we first need to determine the initial concentrations of each gas.
The initial concentration of CO is 0.400 mol/5.00 L = 0.0800 M, Br2 is 0.300 mol/5.00 L = 0.0600 M, and COBr2 is 0.0200 mol/5.00 L = 0.00400 M.
The balanced equation for the reaction is:
CO(g) + Br2(g) ⇌ COBr2(g)
Let's assume that at equilibrium, the concentrations of COBr2 is x M. Therefore, the concentrations of CO and Br2 will be (0.0800 - x) M and (0.0600 - x) M, respectively.
The equilibrium constant expression (Kc) for this reaction is:
Kc = [COBr2] / ([CO] * [Br2])
Substituting the equilibrium concentrations into the Kc expression, we have:
Kc = (x) / ((0.0800 - x) * (0.0600 - x))
Solving for x using the given values and the equation above, we find x ≈ 0.0040 M.
Therefore, the equilibrium concentrations for the gases are:
[CO] ≈ 0.0760 M
[Br2] ≈ 0.0560 M
[COBr2] ≈ 0.0040 M
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I’m the space provided below, show a correct numerical setup for calculating the total number of moles of ethylene glycol needed to prepare 2.50 liters of a 10.0 M solution?
2.50 litres of a 10.0 M solution require the preparation of 25.0 moles of ethylene glycol.
What is the recommended ratio of ethylene glycol to water?Excellent antifreeze, anti-boil, and anti-corrosive qualities are produced when antifreeze and water are mixed in a 50/50 ratio. The proportion of conventional ethylene glycol to water in severely cold conditions can reach 70% antifreeze, 30% water. The maximum antifreeze to water ratio when using DEX-COOL® is 60/40.
moles = concentration (M) x volume (L)
Given that the desired concentration is 10.0 M and the volume needed is 2.50 L, the setup for calculating the total number of moles of ethylene glycol can be written as:
moles = 10.0 M x 2.50 L
moles = 25.0 mol
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Complete the following reaction
a. HN03 + KOH -->. +.
b. HCl + LiOH -->. +.
c. H2S + NaOH -->. +
a. HNO3 + KOH --> KNO3 + H2O
b. HCl + LiOH --> LiCl + H2O
c. H2S + 2NaOH --> Na2S + 2H2O
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The period of a simple pendulum of length 1m on a massive planet is 1 sec. What is the acceleration due to gravity on that planet?
The acceleration due to gravity on the massive planet is 39.48 m/s².
How do we calculate?The period (T) of a simple pendulum is given by:
T = 2π√(L/g),
where L is the length of the pendulum and g is the acceleration due to gravity.
In this scenario, we are given that the period of the pendulum (T) is 1 second and the length of the pendulum (L) is 1 meter.
So, substituting these values into the equation:
1 = 2π√(1/g)
Simplifying this equation :
g = (4π²) / (1²)
g = 4π² m/s²
g ≈ 39.48 m/s²
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Why is a hydrogen atom in one H₂O molecule attracted to the oxygen atom in an adjacent H₂O molecule?
This attraction is known as hydrogen bonding, which occurs when a hydrogen atom that is covalently bonded to one electronegative atom (such as oxygen) is attracted to another electronegative atom in another molecule. In the case of water molecules, the hydrogen atoms have a partial positive charge and the oxygen atoms have a partial negative charge due to differences in electronegativity. This allows for the formation of hydrogen bonds between adjacent water molecules. The hydrogen bonding gives water its unique properties such as high boiling point and surface tension.
The solubility of a gas is 0. 650 g/L at a pressure of 109 kPa. What is the solubility of the gas if the pressure is increased to 131 kPa?
The solubility of the gas increases to 0.780 g/L when the pressure is increased to 131 kPa.
According to Henry's law, the solubility of a gas in a liquid is directly proportional to the pressure of the gas above the liquid. Thus, we can use the following equation to calculate the new solubility:
S₂ ÷ S₁ = P₂ ÷ P₁
where S₁ is the initial solubility, S₂ is the new solubility, P₁ is the initial pressure, and P₂ is the new pressure.
Plugging in the given values, we have:
S₂ ÷ 0.650 g/L = 131 kPa ÷ 109 kPa
Solving for S₂, we get:
S₂ = (0.650 g/L) × (131 kPa ÷ 109 kPa)
S₂ = 0.780 g/L
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