The given chemical equation represents a single replacement reaction because one element in the reactant compound (chlorine) is replacing another element (bromine) in the other reactant compound. Option B is correct.
In this reaction, chlorine gas is reacting with sodium bromide solution to form sodium chloride solution and liquid bromine. The reaction occurs because chlorine is more reactive than bromine, and therefore, it can replace bromine in the compound. This type of reaction is also known as a displacement reaction. Therefore, option B is the correct choice as it correctly identifies the type of reaction based on the chemical changes that occur during the reaction.
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A 3.43 mol sample of helium is in a 27.17 L container. What is the
pressure of this gas in atmospheres at 219 °C?
A) 2.21 atm
B) 5.10 atm
C) 6.50 atm
D) 7.92 atm
:Response: 2.21 atm The ideal gas law says that the pressure of a gas is equal to the quantity of the gas times the universal gas constant (R) times the temperature (T) times the volume (V) divided by the number of moles in the gas.
Consequently, we may apply the following equation to this issue: P = (n*R*T)/V. We may get the pressure of the gas in atmospheres by using the following formula, where n is the number of moles, V is the volume, T is the temperature, and R is the universal gas constant.
P is equal to 2.21 atm or (3.43 mol*0.0821 L*atm/mol*K*492.15 K)/27.17 L. As a result, choice A) 2.21 atm is the right one.
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Which is one way that spring tides are different from regular tides?
Answer:
high tides are a little higher and low tides are a little lower than average
Explanation:
A spring tide is the highest tide (when the greatest difference between the high and low tides). This happens during the new and full moon.
Answer: It's worth noting that low tides can sometimes be lower than usual, which is referred to as spring tides. Despite its name, this phenomenon isn't related to spring and has a different historical origin.
under what circumstances do you think credit cards should NOT be used ?
It's never a good idea to use your credit card when experiencing strong emotions, especially if you tend to steer toward 'retail therapy.
Conclusion
Discuss accuracy and precision of your experiment by comparing your value of the heat of reaction
to the textbook/table value. As part of your accuracy discussion, calculate the percent error. What
sources of error could account for your percent error? Be very specific and mention at least three.
For each error, tell if it would cause the heat of each specific reaction to he too high or too low
[Mg HCI, MgO+ HCI), Next, tell how each error would affect the heat of the overall reaction.
Use the errors in the conclusions section of the previous experiment as a guide to the errors that
should be discussed.
The degree of proximity between a measured value and the actual value can be defined as Accuracy.
Precision is one that is used to know the level of uniformity present in a group of measurements that are repeated multiple times.
The Possible sources of error in the above experiment can be :
Instrumental errorsProcedural errorsEnvironmental errorsWhat is the errors about?By conducting an experiment and comparing the outcome of the heat of reaction with the accepted value presented in a textbook or table, it is possible to compute the percentage of deviation. The percentage deviation can either be positive or negative and represents whether the experimentally obtained value is higher or lower than the accepted value, respectively.
Each mistake has the potential to result in an excessive or inadequate level of heat for the individual reaction. The Insufficient execution of the procedure can impact the individual reaction's thermal energy.
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Methane (CH_4) gas is used for heating in many applications. It is gas used to fuel the Bunsen burners in this classroom. The chemical equation for the combustion of methane is given. Answer the following questions.
CH_4 + 2O_2 --> CO_2 + 2H_2O
1.) Will the ∆H for the combustion of methane be +890 kJ/mol or -890kJ/mol? Explain.
2.) Is energy a reactant or a product in this reaction?
sign of ∆H :-
+ve means endothermic reaction -ve means exothermic reactionWe know
when methane burns in presence of oxygen heat is released as a form of energy so the reaction is exothermic.∆H must be -ve
#2
Product as energy is released so it will be in right side32 g of Br2 are added to 10 g of a mixture of ethene and ethane. What is the mass percent of ethene in the mixture?
Answer:
A mixture of ethane and ethene occupies 40 litre at 1.00 atm and at 400 K.The mixture reacts completely with 130 g of O2 to produce CO2 and H2O . Assuming ...
Missing: 32 Br2
1) Calculate the molar volume of hydrogen gas at standard temperature and pressure (STP) from your data. Liters of course is V2 from calculation 2 above, and moles is from
calculation 1 above.
molar volume = Lhydrogen gas
_____________
mole hydrogen gas
2) The accepted value for the molar volume of an ideal gas at STP is: 22.4 L/mol. calculate the percent error of your average results.
3) What are possible sources of error in this experiment?
INFORMATION:
Max pressure = 134.44 kPa
Atmospheric pressure = 103.40 kPa
Room temperature = 25.1 C
Final temperature = 26.5 C
Mean temperature = 25.8 C
The accepted value for the molar volume of an ideal gas at STP is 22.4 L/mol.
To calculate the molar volume of hydrogen gas at STP, we can use the ideal gas law equation, PV = nRT, where P is the pressure, V is the volume, n is the number of moles, R is the ideal gas constant, and T is the temperature in Kelvin.
From the given information, we have:
Pressure (P) = 103.40 kPa
Volume (V) = V2 from calculation 2 above (in liters)
Moles (n) = moles from calculation 1 above
Temperature (T) = 25.8 °C + 273.15 = 298.95 K (mean temperature)
Molar volume = V / n
Molar volume = V2 / moles
The accepted value for the molar volume of an ideal gas at STP is 22.4 L/mol. To calculate the percent error, we can use the formula:
Percent error = (|experimental value - accepted value| / accepted value) * 100
Percent error = (|molar volume - 22.4 L/mol| / 22.4 L/mol) * 100
Possible sources of error in this experiment may include experimental inaccuracies such as: Inaccurate pressure measurements due to instrumental limitations or calibration issues. Temperature fluctuations during the experiment, leading to variations in the calculated values. Assumptions of ideal gas behavior may not hold completely. Systematic errors in the equipment used, such as leaks or variations in volume measurements. It's important to note that this is a hypothetical experiment based on the given information, and the actual sources of error may vary depending on the experimental setup and procedure.
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If a dilute solution of hydrochloric acid is electrolysed, what gas will be produced at the anode? Answer in words not symbols.
If a dilute solution of hydrochloric acid (HCl) is electrolyzed, the gas produced at the anode (positive electrode) will be chlorine gas (Cl₂). When a dilute solution of hydrochloric acid (HCl) is electrolyzed, it undergoes a process called electrolysis.
In the case of hydrochloric acid, it dissociates into hydrogen ions (H+) and chloride ions (Cl-). The positive hydrogen ions (H+) are attracted to the cathode (negative electrode) and are involved in the reduction reaction. At the cathode, hydrogen gas (H₂) is produced as a result of the reduction of H+ ions. At the anode (positive electrode), the chloride ions (Cl-) are attracted. Here, the chloride ions undergo oxidation, losing electrons and forming chlorine gas (Cl₂). The chlorine gas is released as a product of the reaction at the anode.
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A sample of gas at a constant volume initially has a temperature of 315.0 K with a pressure of 2.50 atm. The temperature changes to 150.0 K. Calculate the final pressure.
To solve this problem, we can use Charles' Law, which states that, at constant volume, the pressure and temperature of a gas are directly proportional.
The formula we will use is:
[tex]\boxed{\large\displaystyle\text{$\begin{gathered}\sf \bf{\dfrac{P_1}{T_1 }=\frac{P_2}{T_2} } \end{gathered}$} }[/tex]
Where:
P₁ = initial pressure = 2.50 atmT₁ = initial temperature = 315.0 KT₂ = temperature = 150.0 KP₂ = final pressure = ?Solving the formula for V₂:
[tex]\boxed{\large\displaystyle\text{$\begin{gathered}\sf \bf{P_2=\frac{P_1T_2}{ T_1} } \end{gathered}$} }[/tex]
Where:
P₁ = initial pressureT₁ = initial temperatureT₂ = temperatureP₂ = final pressureWe substitute the known values:
[tex]\boxed{\large\displaystyle\text{$\begin{gathered}\sf \bf{P_2=\frac{2.50 \ atm\times150.0\not{K} }{315.0\not{k} } } \end{gathered}$} }[/tex]
[tex]\boxed{\boxed{\large\displaystyle\text{$\begin{gathered}\sf \bf{P_2\approx1.19 \ atm } \end{gathered}$} }}[/tex]
The final pressure will be approximately 1.19 atm when the temperature changes from 315.0 K to 150.0 K, holding the volume constant.How much solute is needed to make a 50.0mL of a 0.100 M solution of each reactant when using copper (ll) sulfate + sodium Hydroxide
We need 0.798 g of copper (ll) sulfate and 0.400 g of sodium hydroxide to make a 50.0 mL of a 0.100 M solution of each reactant.
To determine the amount of solute needed to make a 50.0 mL of a 0.100 M solution of each reactant when using copper (ll) sulfate and sodium hydroxide, we need to use the formula:
Molarity (M) = moles of solute ÷ volume of solution (in liters)
First, we need to calculate the number of moles of solute needed. Since the molar ratio of copper (ll) sulfate to sodium hydroxide is 1:2, we will need twice as many moles of sodium hydroxide as copper (ll) sulfate.
Let's start with copper (ll) sulfate:
Molarity (CuSO4) = 0.100 M
Volume (V) = 50.0 mL = 0.0500 L
Using the formula, we can rearrange it to solve for moles of solute:
moles of CuSO4 = Molarity × Volume
moles of CuSO4 = 0.100 M × 0.0500 L
moles of CuSO4 = 0.00500 mol
Next, we can calculate the number of moles of sodium hydroxide needed:
moles of NaOH = 2 × moles of CuSO4
moles of NaOH = 2 × 0.00500 mol
moles of NaOH = 0.0100 mol
Now that we know the number of moles of each solute needed, we can calculate the mass of each solute needed using their respective molar masses:
mass of CuSO4 = moles of CuSO4 × molar mass of CuSO4
mass of CuSO4 = 0.00500 mol × 159.61 g/mol
mass of CuSO4 = 0.798 g
mass of NaOH = moles of NaOH × molar mass of NaOH
mass of NaOH = 0.0100 mol × 40.00 g/mol
mass of NaOH = 0.400 g
Therefore, we need 0.798 g of copper (ll) sulfate and 0.400 g of sodium hydroxide to make a 50.0 mL of a 0.100 M solution of each reactant.
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A sample of neon gas at 50c and a volume of 2.5 liters is cooled to 25c. What is the new volume
Answer: 2.31 L
Explanation:
charles law v2= V1 x T2/T1
temperature must be in Kelvin
V2=2.5 X 298.15 / 323.15 =2.31 L
What assumptions can you make about fossils?
Answer:
Related questions
What assumption is made during the relative dating of fossils?
the rule of superposition
In relative dating, to determine the relative age, geologists believe that, in a sequence of superficial layers, the newer layers fall on top of older ones unless any physical disturbance such as soil erosion happens. Scientists call this the rule of superposition, and it is the central assumption in relative dating
write a short note on chemical and physical method of monitoring the rate of chemical reactions
Chemical and physical methods are two approaches used to measure the rate of chemical reactions. Chemical methods involve the use of spectroscopic techniques and analyses of reaction products to measure the speed of a reaction. Physical methods involve using thermodynamics and other physical measurements to determine the speed of a reaction.
Hope this helps! Have a great day. :)An insulated container is used to hold 47.5 g of water at 19.3 °C. A sample of copper weighing 14.7 g is placed in a dry test tube and heated for 30 minutes in a boiling water bath at 100.0°C. The heated test tube is carefully removed from the water bath with laboratory tongs and inclined so that the copper slides into the water in the insulated container. Given that the specific heat of solid copper is 0.385 J/(g·°C), calculate the maximum temperature of the water in the insulated container after the copper metal is added.
The maximum temperature of the water in the insulated container after the copper metal is added is 40.7 °C.
The problem can be solved using the principle of conservation of energy, which states that the heat lost by the copper metal is equal to the heat gained by the water.
To calculate the heat lost by the copper, the formula
q = m * c * delta T
is used, where q is the heat lost, m is the mass of copper, c is the specific heat of copper, and delta T is the change in temperature of the copper.
Given that the copper is heated from 19.3 °C to 100.0 °C, the heat lost by the copper is calculated to be 450.5 J.
To calculate the heat gained by the water, the same formula is used, where m is the mass of water, c is the specific heat of water, and delta T is the change in temperature of the water.
We are given that the initial temperature of the water is 19.3 °C and the mass of water is 47.5 g. Assuming the final temperature of the water to be T °C, the expression for the heat gained is
47.5 g * 4.184 J/(g·°C) * (T - 19.3) °C.
Equating the expressions for the heat lost and gained, we get
450.5 J = 47.5 g * 4.184 J/(g·°C) * (T - 19.3) °C.
Simplifying and solving for T, we get
T = 40.7 °C,
which is the final temperature of the water after the copper is added.
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What was the purpose of Marsden Hartley's Portrait of a German Officer (1914)?
It was a poster for a cafe.
It was a memorial to his lover.
It was a demonstration of his assimilation of multiple styles.
It was done as political protest.
Copper has a specific heat capacity of 0,385 J/g °C. A 105g sample is exposed to 15.2 kJ in an
insulated container. How many degrees will the temperature of the copper sample increase?
Answer:
12 degrees
Explanation:
Need help answering this question in the picture
The concept molarity is an important method which is used to calculate the concentration of a solution. It is mainly employed to find out the concentration of a binary solution. Here the molarity is 0.67 M. The correct option is D.
The molarity of a solution is defined as the number of moles of the solute dissolved per liter of the solution. It is represented by the letter 'M' and it is expressed in the unit mol / L.
Molarity = Number of moles of solute / Volume of solution in liters
M = 0.500 / 0.75 = 0.66 mol / L ≈ 0.67 M
Thus the correct option is D.
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3)
If I contain 43 moles of gas in a container with a volume of 260 liters and at a
temperature of 400 K, what is the pressure inside the container?
The pressure inside the container is approximately 5.43 atmospheres.
What is the pressure of the gas?The Ideal gas law or general gas equation is expressed as;
PV = nRT
Where P is pressure, V is volume, n is the amount of substance, T is temperature and R is the ideal gas constant ( 0.08206 Latm/molK )
Given that:
Amount of gas n = 43 moles
Volume V = 260 Liters
Temperature K = 400 K
Pressure P = ?
To determine the pressure of the gas, plug the given values into the above formula and solve for pressure.
PV = nRT
P = nRT / V
P = ( 43 × 0.08206 × 400 ) / 260
P = 1411.432/260
P = 5.43 atm
Therefore, the pressure of the gas is 5.43 atm.
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How many moles of water are represented by 7.43 x 1018 molecules of water
Answer:
approx 7.41 sextillion
Explanation:
One mole of any substance contains 6.022 x 10^23 particles (Avogadro's Number). Therefore, 1 mole of water contains 6.022 x 10^23 water molecules.
To find how many moles are represented by 7.43 x 10^18 molecules of water, we can divide 7.43 x 10^18 by Avogadro's Number:
7.43 x 10^18 / 6.022 x 10^23 = 0.0123 moles of water
Now, we can use this to find the number of water molecules:
0.0123 moles x 6.022 x 10^23 molecules/mole = 7.41 x 10^21 molecules of water
Therefore, 7.43 x 10^18 molecules of water represent 7.41 x 10^21 molecules or approximately 7.41 sextillion (7,410,000,000,000,000,000) molecules of water.
Assume that 0.491 g of diborane is combusted in a calorimeter whose heat capacity (Ccalorimeter) is 7.854 kJ/°C at 19.63°C. What is the final temperature of the calorimeter?
ΔHcombustion for this process is –1958 kJ/mol.
Answer:
To solve this problem, we can use the formula:
q = -Ccalorimeter x ΔT
where q is the heat absorbed by the calorimeter, Ccalorimeter is the heat capacity of the calorimeter, and ΔT is the change in temperature of the calorimeter.
First, we need to calculate the amount of heat released by the combustion of diborane. We can use the molar mass of diborane to convert the given mass to moles:
moles of diborane = 0.491 g / 27.66 g/mol = 0.01775 mol
The heat released by the combustion of 1 mole of diborane is -1958 kJ, so the heat released by the combustion of 0.01775 mol is:
q = 0.01775 mol x (-1958 kJ/mol) = -34.76 kJ
The negative sign indicates that heat is released by the reaction.
Now we can use the formula above to find the change in temperature of the calorimeter:
-34.76 kJ = -7.854 kJ/°C x ΔT
ΔT = 4.43°C
Therefore, the final temperature of the calorimeter is 19.63°C - 4.43°C = 15.20°C.
A hermit lives in a mountain cabin 50 miles outside of town. The hermit received a letter that their cabin is outside of the electric company’s range and they will no longer be able to access the power grid. The hermit is worried because the mountain region experiences several months with below-freezing temperatures each year. With no electrical energy available, which method would most likely provide enough thermal energy to heat the hermit’s cabin?
With no electrical energy available, conduction would most likely provide enough thermal energy to heat the hermit’s cabin.
Thermal energy is defined as a type of energy which is contained within a system which is responsible for temperature rise.Heat is a type of thermal energy.It is concerned with the first law of thermodynamics.
Thermal energy arises from friction and drag.It includes the internal energy or enthalpy of a body of matter and radiation.It is related to internal energy and heat .It arises when a substance whose molecules or atoms are vibrating faster.
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P4(s)+6H2(g)→4PH3(g)
If 92.4 L of H2(g), measured at STP, is allowed to react with 168.0 g of P4, what is the limiting reactant?
If 44.7 L of PH3, measured at STP, forms, what is the percent yield?
The percent yield is 172.5%. This is greater than 100% due to experimental errors such as incomplete reaction or loss of product during the experiment.
To determine the limiting reactant, we need to find the number of moles of each reactant:
92.4 L of H2 at STP (standard temperature and pressure: 0°C and 1 atm) is 92.4/22.4 = 4.12 moles of H2.
168.0 g of P4 is 168.0/123.9 = 1.36 moles of P4.
Using the balanced chemical equation, we can see that 1 mole of P4 reacts with 6 moles of H2 to produce 4 moles of PH3. Therefore, the maximum amount of PH3 that can be produced from 1.36 moles of P4 is:
1.36 mol P4 × (4 mol PH3/6 mol H2) × (4 mol PH3/1 mol P4) = 1.09 mol PH3
Since this is less than the maximum amount of PH3 that can be produced from 4.12 moles of H2:
4.12 mol H2 × (4 mol PH3/6 mol H2) = 2.75 mol PH3
we can conclude that H2 is the limiting reactant.
To calculate the theoretical yield of PH3, we use the amount of limiting reactant, which is 4.12 moles of H2:
4.12 mol H2 × (4 mol PH3/6 mol H2) × (1 L/22.4 mol) = 0.733 L of PH3 at STP
The actual yield is given as 44.7 L of PH3 at STP, which is converted to moles using the ideal gas law:
PV = nRT
(1 atm) × (44.7 L) = n × (0.08206 L atm mol^-1 K^-1) × (273.15 K)
n = 1.88 moles of PH3
The percent yield is then calculated as:
(actual yield/theoretical yield) × 100% = (1.88 mol/1.09 mol) × 100% = 172.5%
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2H2O->2H2+O2
Finish the following model to represent the reaction equation for the electrolysis of water
The model would be complete when there two pairs of white dots and one pair of black dots
Electrolysis of waterThe chemical process of electrolysis breaks down water molecules into their component parts, hydrogen and oxygen , using an electric current. Two simultaneous reactions take place at distinct electrodes, referred to as the anode and cathode, which are submerged in an electrolyte solution, to produce this process.
A crucial step in the process of creating hydrogen gas, a clean and renewable energy source, is the electrolysis of water.
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It is not advisable to use drug S when patient has indigestion problem. Explain
It is essential to consult a healthcare professional before taking any medication when experiencing indigestion or any other health condition, to ensure that the medication is safe and effective for the patient's specific needs.
It is not advisable to use drug S when a patient has indigestion problem because drug S may worsen the patient's condition or interact negatively with other medications they are taking. Indigestion is a common condition that occurs when there is an imbalance in the digestive system, causing discomfort, bloating, and nausea. Some drugs can exacerbate these symptoms by increasing the production of stomach acid or by irritating the lining of the digestive tract. Drug S may have side effects that include gastrointestinal disturbances, including stomach pain, nausea, and diarrhea. This can make indigestion symptoms worse and lead to further discomfort and distress for the patient. Additionally, drug S may interact negatively with other medications that the patient is taking, further worsening their indigestion. Therefore, it is essential to consult a healthcare professional before taking any medication when experiencing indigestion or any other health condition, to ensure that the medication is safe and effective for the patient's specific needs.
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Which of these would cause an INCREASE in energy?
The expressions that would cause a DECREASE in energy are
A. DECREASING both wave frequency and wavelength
B. DECREASING the wave frequency and INCREASING thewavelength
What is the relationship between wave frequency and thewavelength and energy?The number of complete wavelengths that can be found in the unit of time can be regarded as thefrequency (f) , however when the wavelength increases in size, then the frequency as well as the energy (E) decrease. .
It should be noted that the the frequency increases, the wavelength gets shorter, hence as the frequency decreases, there there would be increase in wavelength .
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comlete question;
Which of these would cause a DECREASE in
energy?
A. DECREASING both wave frequency and wavelength
B. DECREASING the wave frequency and INCREASING the
wavelength
C. INCREASING both wave frequency and wavelength
D. INCREASING the wave frequency and DECREASING the
wavelength
INCREASING the wave frequency DECREASING the wavelength
Burning Dorito chips releases 12,357 J of thermal energy. Assuming all the heat is absorbed by a 234.2g sample of water with initial temp of 22C, what would be the temperature of the water
Answer:
22°C + 14.82°C = 36.82°C
Explanation:
We can use the formula:
q = mCΔT
where q is the heat absorbed by the water, m is the mass of the water, C is the specific heat of water, and ΔT is the temperature change of the water.
We are given q = 12,357 J, m = 234.2 g, and an initial temperature of 22C. The specific heat of water is 4.184 J/(g·°C).
Plugging in the numbers, we get:
12,357 J = (234.2 g)(4.184 J/(g·°C))(ΔT)
Solving for ΔT, we get:
ΔT = 14.82°C
Therefore, the final temperature of the water would be:
22°C + 14.82°C = 36.82°C
Distinguish between the order and the molecularity of a reaction
The order of a reaction is determined experimentally and describes the relationship between the rate of a reaction and the concentration of reactants, whereas the molecularity of a reaction is a theoretical concept that describes the number of molecules that participate in the rate-determining step of a reaction.
The order of a reaction is the mathematical representation of the relationship between the rate of a reaction and the concentration of reactants. It describes how the rate of a reaction changes with respect to the change in concentration of reactants.
The order of a reaction is determined experimentally by observing how the rate of a reaction changes as the concentration of reactants is varied while keeping the concentration of other reactants and conditions constant. The order of a reaction can be 0, 1, 2, or even a fraction.
The molecularity of a reaction is the number of reactant molecules that collide in a single step to form the product. The molecularity of a reaction can be unimolecular (1), bimolecular (2), or termolecular (3). It is important to note that not all reactions have a molecularity, as some reactions have multiple steps and multiple reactants involved.
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How much H2 would be produced by the complete reaction of the iron bar?
Fe(s)+2HCl(aq)→FeCl2(aq)+H2(g)
1 mole of iron reacts with 2 moles of hydrochloric acid to produce 1 mole of hydrogen gas; therefore, the amount of H₂ produced depends on the amount of iron reacted and the stoichiometry of the reaction.
According to the balanced chemical equation, 1 mole of iron reacts with 2 moles of hydrochloric acid to produce 1 mole of hydrogen gas. Therefore, the amount of hydrogen gas produced by the complete reaction of an iron bar will depend on the amount of iron reacted.
To determine the amount of hydrogen gas produced, we need to know the amount of iron reacted. This can be calculated from the mass of the iron bar using its molar mass. Once we know the amount of iron reacted, we can use the stoichiometry of the reaction to determine the amount of hydrogen gas produced.
For example, if we assume that the iron bar has a mass of 1.0 g, we can calculate the number of moles of iron using its molar mass of 55.85 g/mol:
1.0 g Fe x (1 mol Fe/55.85 g Fe)
= 0.0179 mol Fe
Since the stoichiometry of the reaction is 1:2 (1 mole of iron reacts with 2 moles of hydrochloric acid), we can calculate the amount of hydrogen gas produced by multiplying the number of moles of iron by 2:
0.0179 mol Fe x (1 mol H₂/1 mol Fe) x (22.4 L H2/mol H₂)
= 0.802 L H₂
Therefore, the complete reaction of the iron bar with hydrochloric acid would produce 0.802 L of hydrogen gas, assuming that the iron bar has a mass of 1.0 g.
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Find the concentration of the missing substance
11) A + B = C
K=20,
IAl=2,
[B=5
[C] =
12) A(s) + B(ag) = C(g)
K = 10
B=
11. The concentration of C is 200
12. The concentration of B is 0.4
How do i determine the equilibrium concentrations?Equilibrium constant, K is defined as follow:
nReactant ⇌ mProduct
Equilibrium constant, K = [Product]ᵐ / [Reactant]ⁿ
With the above formula, we can obtain the equilibrium concentration of the missing substance as follow:
11. For concentration of C
A + B ⇌ CEquilibrium constant (K) = 20Concentration of A, [A] = 2Concentration of B, [B] = 5Concentration of C, [C] =?K = [C] / [A][B]
20 = [C] / (2 × 5)
20 = [C] / 10
Cross multiply
[C] = 20 × 10
Concentration of C, [C] = 200
12. For concentration of B
A(s) + B(aq) ⇌ C(g)Equilibrium constant (K) = 10Concentration of C, [C] = 4Concentration of B, [B] = ?K = [C] / [B]
10 = 4/ [B]
Cross multiply
10 × [B] = 4
Divide both sides by 10
[B] = 4 / 10
Concentration of B, [B] = 0.4
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Complete question:
Find the concentration of the missing substance
11) A + B = C
K = 20
[A] = 2
[B] = 5
[C] =?
12) A(s) + B(ag) = C(g)
K = 10
[C] = 4
[B] = ?
6.802 x 1020 particles of Mn(NO3)3 is dissolved in 0.38 L of water.
What is the concentration of this solution in molarity?
A) 3.5 x 10-2M
B) 3.0 x 10 M
C) 0.30M
D) 0.38M
The concentration of the solution in molarity, given that 6.802×10²⁰ particles were dissolved in 0.38 L of water is 3.0×10⁻³ M (option B)
How do i determine the molarity of the solution?First, we shall determine the number of mole that contains 6.802×10²⁰ particles of Mn(NO₃)₃. Details below:
From Avogadro's hypothesis,
6.022×10²³ particles = 1 mole of Mn(NO₃)₃
Therefore, we can say that
6.802×10²⁰ particles = 6.802×10²⁰ / 6.022×10²³
6.802×10²⁰ particles = 0.001 mole of Mn(NO₃)₃
Finally, we shall obtain the molarity of the solution. Details below:
Number of mole of Mn(NO₃)₃ = 0.001 moleVolume of solution = 0.38 LMolarity of solution = ?Molarity of solution = mole / volume
Molarity of solution = 0.001 / 0.38
Molarity of solution = 3.0×10⁻³ M (option B)
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