The volume 16.76 L of sulphur tetrafluoride gas were collected.
The ideal gas law is used to calculate the volume of sulfur tetrafluoride collected. The ideal gas law states that PV = nRT, n is the number of gas molecules, P is the pressure in atmospheres, V is the volume of the gas in litres, R is the universal gas constant, and T is the temperature in Kelvin.
Using the information given in the problem, we can calculate the volume of sulfur tetrafluoride gas that is collected. First, convert the temperature from Celsius to Kelvin by adding 273.15. This means that the temperature in Kelvin is 254.15. Next, we can solve for V, the volume of gas collected, by rearranging the ideal gas law equation:[tex]V = \frac{nRT}{P}[/tex].
[tex]n=785.mmol,\\R=0.0821L.atm/K.mol\\T=254.14K\\\\P=1atm[/tex]
Substituting in the values, we get:
[tex]V =\frac{ (785. mmol)(0.0821 L.atm/K.mol)(254.15 K)}{(1 atm) }\\\\V= 16.76 L[/tex]
Therefore, the volume of sulfur tetrafluoride gas collected is 16.76 L.
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which term describes an acid according to one acid base theory
A substance that contains a hydrogen atom and can be given as a hydrogen ion in an aqueous solution is considered an acid, according to the Arrhenius hypothesis. Arrhenius acids are the name given to such compounds.
According to Arrhenius hypothesis, what exactly is an acid?According to Arrhenius: Acid: Acids are those substances that, when dissolved in water, produce H+ ions. Base: Bases are compounds that, when dissolved in water, give off OH ions.
Which element falls under the definition of an H+ ion donor?According to the Bronsted-Lowry definition, an acid is a substance that contributes protons to the formation of a bond or takes a pair of valence electrons. (in the Lewis definition).
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Question:
Which term describes an acid according to the Arrhenius acid-base theory?
When the internal energy of a system decreases by 300J while 100J of work is done on the system, what is the change in the heat for the system.
A.-200
B.+400
C.-400
D.+200
The answer is (A) -200 J.
The first law of thermodynamics states that the change in the internal energy of a system, ΔU, is equal to the heat added to the system, Q, minus the work done by the system, W:
ΔU = Q - W
In this case, we know that ΔU = -300 J (decrease in internal energy) and W = 100 J (work done on the system). Therefore, we can rearrange the equation to solve for Q:
Q = ΔU + W = -300 J + 100 J = -200 J
This means that the system lost 200 J of heat. However, the question asks for the change in heat, which means we need to take the negative sign into an account. Therefore, the answer is (A) -200 J.
The first law of thermodynamics is a fundamental principle of physics that states that energy can only be moved or changed from one form to another. This theory holds true for all types of energy, including mechanical, thermal, and electromagnetic energy.
The first law of thermodynamics is concerned with the conservation of energy in a system. It says that the total energy of a closed system remains constant, which includes both the system's internal energy and the work done on or by the system.
In other words, any change in a system's energy must be balanced by a change in the work or heat entering or exiting the system.
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which of the following molecules has a nonlinear structure? a. becl2 b. xef2 c. o3 d. co2 e. n2o (central atom is n)
Both XeF2 and O3 molecule has nonlinear structure. Hence option B and C are correct.
Compounds with a geometry different than linear geometry are referred to as nonlinear molecules. This indicates that these molecules are not linear and that their atoms are not aligned in a linear fashion.
XeF2 has a linear geometry, 3 lone pairs, and 2 bond pairs. Option B is therefore incorrect.
Similar to BeCl2, which similarly has a linear shape and 3 lone pairs and 2 bond pairs. Option A is therefore unsuitable.
Ozone O3 has a triangular planar shape, two bond pairs, and one single pair. Hence, since it is a non-linear molecule, option C is valid.
A linear molecule with a bond angle of 180 is carbon dioxide. Option D is therefore incorrect.
Another linear molecule is N2O. Option E is therefore incorrect.
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(e) The table shows some information about an investigation on the decomposition of H2O2(aq) using two different catalysts. In each experiment, 0.100g of the catalyst and
25.0 cm3 of H2O2(aq) were used. The concentration and temperature of the H2O2(aq) Use were kept constant.
manganese(IV) oxide 25 95
peroxidase 10
For Examiner’s
catalyst
time taken to collect 50 cm3 of oxygen / s
total volume of oxygen made at the end of the reaction / cm3
© UCLES 2010
5070/21/M/J/10
(i)
(ii)
What is the total volume of oxygen made at the end of the reaction in which peroxidase was used as a catalyst?
volume of oxygen = ............................. cm3
The volume of oxygen made at the end of the reaction in which peroxidase was used as a catalyst is 10 cm3.
Given : The table shows some information about an investigation on the decomposition of H2O2(aq) using two different catalysts. In each experiment, 0.100g of the catalyst and 25.0 cm3 of H2O2(aq) were used. The concentration and temperature of the H2O2(aq) Use were kept constant.
Manganese(IV) oxide 25 95 Peroxidase 10.
For Examiner’s catalystTime taken to collect 50 cm3 of oxygen / sTotal volume of oxygen made at the end of the reaction / cm3(i)What is the total volume of oxygen made at the end of the reaction in which peroxidase was used as a catalyst.
So, we need to determine the total volume of oxygen made at the end of the reaction in which peroxidase was used as a catalyst.Volume of oxygen made at the end of the reaction in which peroxidase was used as a catalyst = 10 cm3.
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Imagine you have three tuning forks of frequencies 250, 500 and 1000 Hz. Which one would:
A) sound the lowest
B) have the highest pitch
If we have three tuning forks of frequencies 250, 500 and 1000 Hz then the tuning fork of 250 Hz would sound the lowest and the tuning fork of 1000 Hz would have the highest pitch.
A.) The tuning fork of 250 Hz would sound the lowest, as it has the lowest frequency among the three. Frequency measures the number of oscillations per second of a wave so the 250 Hz wave will have fewer oscillations per second than the 500 Hz and 1000 Hz waves, resulting in a lower pitch. A lower frequency means that the sound waves are closer together, producing a lower, deeper sound.
B) The tuning fork of 1000 Hz would have the highest pitch, as it has the highest frequency. The 1000 Hz wave will have more oscillations per second than the 250 Hz and 500 Hz waves, resulting in a higher pitch. A higher frequency means that the sound waves are farther apart, producing a higher, more piercing sound.
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Help what's the answer?
According to the equation, one molecule of H₂ reacts for every two molecules of C₂H₄ that respond at the particle level. One molecule of C₂H₆ is created when these molecules join.
According to the equation, 1 mole of H₂ reacts for every 1 mole of C₂H₄ that does. To create 1 mole of C₂H₆, these reactants must be combined in a ratio of 1:1.
The balanced equation for the chemical reaction is:
[tex]C_2H_4_(g_) + H_2_(g_) -- > C_2H_6_(g_)[/tex]
This equation illustrates how ethene (C₂H₄) and hydrogen gas (H₂) combine to create ethane. (C₂H₆). The stoichiometric coefficients in the equation denote the mole ratios of the reactants and products in the balanced equation. They are represented by the coefficients in the equation.
According to the equation, one molecule of H₂ reacts for every two molecules of C₂H₄ that respond at the particle level. One molecule of C₂H₆ is created when these molecules join.
According to the equation, 1 mole of H₂ reacts for every 1 mole of C₂H₄ that does. To create 1 mole of C₂H₆, these reactants must be combined in a ratio of 1:1.
In general, the balanced equation and its coefficients offer crucial details about the proportions of reactants and products engaged in the chemical reaction.
Chemical processes are modeled by chemical equations. The proportions of the reactants and products engaged in a chemical reaction are displayed in a balanced chemical equation.
The reactant's and products' mole ratios, which show the relative amounts of each substance engaged in the reaction, are represented by the coefficients in the balanced equation.
The mass conservation principle, says that mass is neither produced nor destroyed in a chemical reaction and experimental data are used to determine these coefficients.
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the volume of a sample of hydrogen gas was decreased from 12.13 l 12.13 l to 5.42 l 5.42 l at constant temperature. if the final pressure exerted by the hydrogen gas sample was 7.85 atm, 7.85 atm, what pressure did the hydrogen gas exert before its volume was decreased?
Using Boyle's law, we can calculate the pressure of the hydrogen gas before its volume was decreased. According to Boyle's law: PV = k where P is pressure, V is volume, and k is a constant at constant temperature. so the answer is 3.51 atm.
We can use the equation P1V1 = P2V2 to solve for the initial pressure, where P1 is the initial pressure, V1 is the initial volume, P2 is the final pressure, and V2 is the final volume.
Substituting the given values, we get:
P1V1 = P2V2 P1(12.13 L) = (7.85 atm)(5.42 L) P1 = (7.85 atm)(5.42 L) / (12.13 L) P1 = 3.5075 atm = 3.51 atm.
Therefore, the answer is: the hydrogen gas exerted a pressure of 3.51 atm before its volume was decreased.
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PLS HELP ITS DUE IN 10 MINS!! How many grams of argon (Ar) are present in 2.35 x 10^24 atoms of argon?
Answer:42.4 g
Explanation:
2.35x10^24 atom / 6.02x10^23 atom
1.06 moles x 39.95 = 42.39 g Ar
a buffer solution is created by dissolving 87.5 g of ch3coona in 1.00 l of 1.00m ch3cooh. assume that the volume does not change. find the ph of the buffer solution at 25oc.
The pH of the buffer solution is approximately 4.79.
To calculate the pH of the buffer solution, we need to use the Henderson-Hasselbalch equation, which relates the pH of the buffer to the pKa of the weak acid and the ratio of its conjugate base and weak acid forms in the solution. The equation is, pH = pKa + log([A⁻]/[HA])
where pKa is the dissociation constant of the weak acid, [A⁻] is the concentration of the conjugate base (acetate ion, CH₃COO⁻), and [HA] is the concentration of the weak acid (acetic acid, CH₃COOH).
First, we need to calculate the pKa of acetic acid. The pKa value for acetic acid is 4.76 at 25°C. Next, we need to find the concentrations of CH₃COOH and CH₃COO⁻ in the buffer solution. We know that we have 87.5 g of CH₃COONa, which is the sodium salt of acetic acid, in 1.00 L of 1.00 M CH₃COOH. To find the concentration of CH₃COOH, we can use the following formula,
moles of CH3COOH = M × V = 1.00 M × 1.00 L = 1.00 moles
The molar mass of CH₃COOH is 60.05 g/mol, so the mass of 1.00 moles is,
mass of CH₃COOH = 1.00 moles × 60.05 g/mol = 60.05 g
The amount of CH₃COOH that reacts with the Na+ in CH₃COONa is negligible, so the concentration of CH₃COOH remains 1.00 M.
To find the concentration of CH₃COO⁻, we need to use stoichiometry. The chemical equation for the dissociation of CH₃COOH in water is,
CH₃COOH + H₂O ⇌ CH₃COO⁻ + H₃O⁺
The acid dissociation constant (Ka) for this reaction is, Ka = [CH₃COO⁻][H₃O⁺]/[CH₃COOH]
At equilibrium, the concentrations of CH3COOH and H₃O⁺ are equal and can be represented as [H3O+]. The concentration of CH₃COO⁻ is equal to the amount of CH₃COOH that has dissociated,
[CH₃COO⁻] = moles of CH₃COOH dissociated/L of solution = moles of NaCH₃COO/L of solution
The number of moles of CH₃COONa in 87.5 g is,
moles of CH₃COONa = 87.5 g / 82.03 g/mol = 1.066 moles
Since each mole of CH₃COONa dissociates into one mole of CH₃COO⁻, the concentration of CH₃COO⁻ in the buffer solution is,
[CH₃COO⁻] = 1.066 moles / 1.00 L = 1.066 M
Now we can use the Henderson-Hasselbalch equation to calculate the pH of the buffer solution,
pH = pKa + log([A⁻]/[HA])
pH = 4.76 + log(1.066/1.00)
pH = 4.76 + 0.03
pH = 4.79
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if 40% of the air on board the space shuttle is composed of o2 , and the cabin is pressurized to 300 mmhg, then the partial pressure of oxygen would be:
Answer:
120 mm Hg
Explanation:
120 mm Hg
.4 x 300
In the given statement, if 40% of the air on board the space shuttle is composed of O2, and the cabin is pressurized to 300 mmHg, then the partial pressure of oxygen would be: 120 mmHg.
Partial pressure is the pressure of each component of a mixture of gases. Dalton's law of partial pressures states that the total pressure of a mixture of gases is the sum of the partial pressures of each gas present. This means that the total pressure of a mixture is the sum of the partial pressure of each gas in the mixture.Given that 40% of the air on board the space shuttle is composed of O2, then the partial pressure of O2 can be calculated as follows:Partial pressure of O2 = Total pressure x Fraction of O2 in the mixture Partial pressure of O2 = 300 mmHg x 0.4Partial pressure of O2 = 120 mmHg. Therefore, the partial pressure of oxygen in the cabin of the space shuttle would be 120 mmHg.
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a 50.0 ml solution of 0.107 m koh is titrated with 0.214 m hcl . calculate the ph of the solution after the addition of each of the given amounts of hcl .
The pH of the solution after the addition of each of the given amounts of HCL is 2.58.
Molarity of KOH is 0.107 M
Volume of KOH solution is 50 mL
Molarity of HCL is 0.214 M
Volume of HCL solution is 26 mL
The moles can be calculated as,
Moles of KOH = molarity of the solution × volume(L)
=0.107M×50mL×1L / 1000mL
=0.0053mole
Moles of HCL = molarity of the solution × volume(L)
=0.214M×26mL×1L / 1000mL
=0.0055mole
The remaining HCL solution can be calculated as,
Remaining HCL solution = −0.0055mole - 0.0053 mole
=0.0002mole
Total Volume = 50+26m
= 76mL× 1L1000mL= 0.076L
The concentration of hydroxide ion is ,
[H+] = moles /volume(L) = 0.0002mole / 0.076L= 0.0026M
The pH is calculated as ,
pH=−log[H+]
=−log[0.0026]
= 2.58
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The complete question is,
A 50.0 ml solution of 0.107 m KOH is titrated with 0.214 m HCL . calculate the pH of the solution after the addition of 26ml of HCL .
Microscope Parts and Use Worksheet
Rack Stop
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5
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7
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high
Microscope Part
power obiective into place
The Rack Stop is a small, movable metal stopper located at the bottom of the microscope body tube. Its purpose is to prevent the objective lenses from hitting the microscope slide or specimen, which could damage both the lenses and the sample.
Here is a list of microscope parts and their uses, including the Rack Stop:
1. Eyepiece or Ocular Lens: The lens at the top of the microscope that you look through to view the specimen.
2. Body Tube: The long, cylindrical part of the microscope that holds the eyepiece at the top and the objective lenses at the bottom
3. Arm: The curved part of the microscope that connects the body tube to the base.
4. Base: The flat, sturdy part of the microscope that supports the rest of the instrument.
5. Stage: The flat platform on which you place the specimen for viewing.
6. Stage Clips: Small metal clips that hold the microscope slide in place on the stage.
7. Coarse Focus Knob: A large knob that moves the body tube up and down to bring the specimen into rough focus.
8. Fine Focus Knob: A smaller knob that moves the body tube slightly to fine-tune the focus of the specimen.
9. Diaphragm: A rotating disc or lever that controls the amount of light entering the microscope and illuminating the specimen.
10. Light Source: The bulb or mirror that provides light for illuminating the specimen.
11. Objective Lenses: A set of lenses located at the bottom of the body tube that magnify the specimen.
12. Rack Stop: A small, movable metal stopper located at the bottom of the microscope body tube. Its purpose is to prevent the objective lenses from hitting the microscope slide or specimen.
13. Nosepiece: The rotating turret at the bottom of the body tube that holds the objective lenses.
14. High Power Objective: The objective lens with the highest magnification, typically 40x or higher. It is used for detailed examination of the specimen.
To use the microscope, first place the specimen on the stage and secure it with the stage clips. Turn on the light source and adjust the diaphragm to control the amount of light entering the microscope. Then, use the coarse focus knob to bring the specimen into rough focus. Once you have achieved this, use the fine focus knob to fine-tune the focus and bring the specimen into clear view. To change the magnification, rotate the nosepiece to select the desired objective lens. Finally, adjust the focus as needed and observe the specimen at the desired magnification.
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Express your answer as a balanced chemical equation.
The balanced reaction equation is;
2 HBr (aq) + Ca(OH)2 (s) → CaBr2 (aq) + 2 H2O (l)
What is the balanced reaction equation?A balanced chemical equation is an equation in which the number of atoms of each element is the same on both the reactant and product sides of the equation. This means that the law of conservation of mass is obeyed - the total mass of the reactants equals the total mass of the products.
The reactants and the products can be seen on the left and on the right hand sides of the reaction equations respectively.
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if you have 10ml of an 18 M solution how many ml would you need to make a 2 M solution?
To make a 2 M solution from an 18 M solution, you will need to dilute it by a factor of 9. (C1V1 = C2V2) denotes the relationship between the initial concentration (C1), initial volume (V1), final concentration (C2), and final volume (V2)
What is the concentrated solution and a diluted solution?A concentrated solution has a high solute to solvent ratio, meaning there is a large amount of solute (such as salt or sugar) dissolved in a small amount of solvent (such as water). A diluted solution has a low solute to solvent ratio, meaning there is a small amount of solute dissolved in a large amount of solvent.
What is the importance of knowing how to dilute a solution?Knowing how to dilute a solution is important in many scientific and medical applications, as it allows us to create solutions with specific concentrations that are needed for experiments or treatments.
Dilution can also be used to reduce the toxicity or reactivity of a substance, making it safer to handle or use.
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in a titration, 14.128 ml of a 1.972 m weak base solution are placed in a 125 ml erlenmeyer flask. a 1.972 m solution of hclo4 (aq) is placed in the buret and filled to the 0.00 ml mark. hclo4 (aq) solution is added to the flask and the buret reading is now 1.972. what is the ph of the solution?
In a titration, 14.128 ml of a 1.972 m weak base solution is placed in a 125 ml Erlenmeyer flask. the pH of the solution is 4.60.
To find the pH of the solution, we need to calculate the concentration of the weak base after it has reacted with the strong acid.
First, let's calculate the number of moles of HClO4 that were added to the flask:
1.972 M x (1.972 mL - 0.00 mL) = 3.893264 mmol HClO4
Since the weak base and strong acid react in a 1:1 mole ratio, we know that 3.893264 mmol of the weak base was also present in the flask.
The volume of the solution in the flask is 14.128 mL or 0.014128 L. Therefore, the concentration of the weak base in the flask before the titration was:
1.972 M x (14.128 mL / 1000 mL) = 0.027925136 M
Now we can use the concentration of the weak base and the amount of moles of weak base to calculate the concentration of the weak base after the titration:
0.027925136 M - (3.893264 mmol / 0.125 L) = 0.001543M
The pH of the solution can be calculated using the pKa of the weak base:
pH = pKa + log([A-]/[HA])
We'll need to know the pKa of the weak base to solve the problem. Let's assume the weak base is ammonia (NH3), which has a pKa of 9.24.
Substituting the values we have:
pH = 9.24 + log([NH2-]/[NH3])
We need to find the ratio of [NH2-] (conjugate base) to [NH3] (weak base).
Since we started with 0.027925136 M of NH3, and the weak base and strong acid react in a 1:1 mole ratio, we know that 3.893264 mmol of NH3 reacted, leaving 0.024031872 mol of NH3 in the solution.
Since NH3 is a weak base that undergoes partial dissociation in water, we can assume that [NH2-] = [H+] and [NH3] = [OH-].
Therefore, [H+] = [NH2-] = x
[OH-] = [NH3] = Kw/x = 1.0 x 10^-14 / x
Substituting these values into the equation above:
pH = 9.24 + log(x / 0.024031872)
To solve for x, we'll need to use the quadratic formula because the dissociation of NH3 is not complete, making it a weak acid/base problem.
x^2 + 1.77x - 1.55 x 10^-13 = 0
Solving this equation yields:
x = 1.21 x 10^-7 M
Therefore, the pH of the solution is:
pH = 9.24 + log(1.21 x 10^-7 / 0.024031872) = 4.60
Therefore, the pH of the solution is 4.60.
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write the chemical equation for the autoionization of water. use subscripts and superscripts in the chemical formulas.
The chemical equation for the autoionization of water can be written as,
2H₂O ⇌ H₃O⁺ + OH⁻
In pure water, a small percentage of water molecules can react with each other through a process known as autoionization or self-ionization. In this equation, two water molecules (H₂O) undergo a reversible reaction to form a hydronium ion (H₃O⁺) and a hydroxide ion (OH⁻).
This process is also known as self-ionization or autoprotolysis of water. The square brackets [] are often used to indicate concentration, so the equilibrium constant for this reaction can be written as:
Kw = [H₃O⁺][OH⁻] = 1.0 x 10⁻¹⁴ (at 25°C)
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a solution is prepared by adding 0.10 mol of lithium nitrate, lino3, to 1.00 l of water. which statement about the solution is correct? a) the solution is basic. b) the solution is neutral. c) the solution is strongly acidic. d) the solution is weakly acidic. e) the values for ka and kb for the species in solution must be known before a prediction can be made
The correct option is (b) the solution is neutral. The solution is prepared by adding 0.10 mol of [tex]LiNO_3[/tex] to 1.00 L of water is a neutral solution.
Lithium nitrate ([tex]LiNO_3[/tex]) is an ionic compound that dissociates into ions when dissolved in water:
[tex]LiNO_3[/tex] → [tex]Li^+[/tex] (aq) + [tex]NO_3^-[/tex](aq)
[tex]Li^+[/tex] and [tex]NO_3^-[/tex] are both spectator ions, which means they don't participate in acid-base reactions. Therefore, the acidity of the solution will be determined by the reaction between water and the remaining ions.
Since neither [tex]Li^+[/tex] nor [tex]NO_3^-[/tex] reacts with water, the solution will be neutral. It is important to note that the [tex]K_a[/tex] and [tex]K_b[/tex] values of the species in solution do not need to be known in order to predict the acidity of the solution, since [tex]Li^+[/tex] and [tex]NO_3^-[/tex] are both spectator ions and do not participate in acid-base reactions.
Therefore, the correct option is (b) the solution is neutral.
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2 C2H6+7 O2⇒4 CO2+6 H2O is carbon balanced?
Answer:
To determine if the given chemical equation is carbon balanced, we need to count the number of carbon atoms in the reactants and compare it to the number of carbon atoms in the products.
Reactants:
2 C2H6 -> 4 carbon atoms
Products:
4 CO2 -> 4 carbon atoms
Since the number of carbon atoms on the reactant side is equal to the number of carbon atoms on the product side, we can conclude that the given chemical equation is carbon balanced.
identify the false statement about mixtures. please choose the correct answer from the following choices, and then select the submit answer button. answer choices a compound is not considered to be a mixture. a mixture must contain 2 or more pure substances. a mixture can contain compounds and/or elements. a mixture can be separated into its constituent components only by chemical means.
The last statement is the false statement which says that A mixture can be separated into its constituent components only by chemical means.
A mixture can be separated into its constituents by both physical as well as chemical means. While homogeneous mixtures are usually separated by both chemical and physical means, heterogeneous mixtures whose components can be seen by the bare eye are usually separated by physical means.
Physical means like hand picking, distillation, filtration, and fractional distillation are widely used in the separation of mixtures. For example, a mixture of soil and water is usually separated from each other using the filtration method in which a filter paper or muslin cloth is used to filter out clear water from the mixture. Thus it is false to say that the mixtures can be separated only by chemical methods.
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The false statement about mixtures is:
"A mixture can be separated into its constituent components only by chemical means."
The correct statement is that a mixture can be separated into its constituent components by physical means such as filtration, distillation, chromatography, and so on. Chemical means are used to separate compounds into their constituent elements.
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from the the tlc background and theory lecture, besides proper balance of polarity, what is the requirement for the pair of solvents?
Thin layer chromatography (TLC) is a technique used to separate the components of a mixture based on their different affinities for a stationary phase (usually a thin layer of silica gel or alumina on a glass or plastic plate) and a mobile phase (usually a solvent or a mixture of solvents).
TLC is an analytical tool widely used because of its simplicity, relative low cost, high sensitivity, and speed of separation.
Besides proper balance of polarity, one of the requirements for the pair of solvents used in TLC is that they must be miscible with each other. This means that they can mix together in any proportion without forming two separate layers. For example, water and ethanol are miscible solvents, but water and hexane are not. Using miscible solvents ensures that the mobile phase has a uniform composition and polarity throughout the TLC plate. This helps to achieve better separation and reproducibility of the results.
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Sketch the titration curve for the titration of 0.15 m formic acid with 0.25 m naoh. you can start with any initial volume of the acid, as the volumes of base added will be proportional. the shape of the titration curve will not change significantly. all acid-base titration calculations start as limiting reactant problems, followed by an equilibrium or buffer calculation. you must calculate the ph at four regions of the titration curve to label your sketch: 1. the initial ph before any naoh has been added 2. the ph at some fraction of the equivalence point 3. the ph at the equivalence point 4. the ph at some volume past the equivalence point this will be covered in lab lecture and you will also find the examples in your textbook very helpful.
1. The initial pH of the solution is 1.89.
2. At half the equivalence point (20 mL of NaOH added), the pH of the solution is 3.26.
3. At the equivalence point (30 mL of NaOH added), the pH of the solution is 10.72.
4. At some volume past the equivalence point the pH of the solution is 12.30
In the sketch (in figure), the x-axis represents the volume of NaOH added and the y-axis represents the pH of the solution. The initial pH before any NaOH has been added is 1.89, which is the pH of the 0.15 M formic acid solution.
As NaOH is added, the pH increases slowly at first, but then increases more rapidly as the solution enters the buffer region. At the half-equivalence point (20 mL of NaOH added), the pH is 3.26. At the equivalence point (30 mL of NaOH added), the pH jumps up to 10.72 due to the complete reaction of the formic acid with NaOH.
After the equivalence point, the pH continues to increase as more NaOH is added. At 50 mL past the equivalence point, the pH is 12.30, which is close to the pH of a strong base.
The titration of 0.15 M formic acid (HCOOH) with 0.25 M NaOH can be represented by the following equation:
[tex]HCOOH + NaOH[/tex] → [tex]NaCOOH + H_2O[/tex]
Before any NaOH is added, the solution consists of 0.15 M formic acid, which is a weak acid. The initial pH of the solution can be calculated using the dissociation constant (Ka) of formic acid:
[tex]HCOOH + H_2O < = > H_3O^+ + HCOO^-[/tex]
[tex]Ka = [H_3O^{+}][HCOO^{-}]/[HCOOH][/tex]
Since formic acid is a weak acid, we can assume that [tex][H_3O^+][/tex] is equal to [tex][HCOO^-][/tex]. Let x be the concentration of [tex][H_3O^+][/tex] and [[tex][HCOO^-][/tex]] at equilibrium, then:
[tex]Ka = x^2 / (0.15 - x)[/tex]
At equilibrium, the concentration of HCOOH will be (0.15 - x) M.
Let's solve for x:
[tex]Ka = x^2 / (0.15 - x)[/tex]
[tex]1.77 * 10^{-4} = x^2 / (0.15 - x)[/tex]
x = 0.0129 M
1. Therefore, the initial pH of the solution is:
[tex]pH = -log[H_3O^+][/tex]
pH = -log(0.0129)
pH = 1.89
Now let's consider the pH at different points during the titration:
Before any NaOH has been added:
The initial pH of the solution is 1.89.
2. At some fraction of the equivalence point:
At the equivalence point, all of the formic acid will have reacted with an equal amount of NaOH. Since NaOH is a strong base, the solution will be basic after the equivalence point.
At some fraction of the equivalence point, we can assume that the solution is a buffer consisting of formic acid and its conjugate base, sodium formate (NaCOOH). We can use the Henderson-Hasselbalch equation to calculate the pH:
pH = pKa + log([NaCOOH] / [HCOOH])
At the fraction of the equivalence point, we can assume that the concentration of HCOOH and NaCOOH are equal, and the concentration of NaOH is equal to the fraction of the equivalence point times the initial concentration of formic acid. Thus:
[HCOOH] = 0.15 M - (fraction of equivalence point) × (volume of NaOH added)
[NaCOOH] = (fraction of equivalence point) × (volume of NaOH added)
[tex][H_3O^+] = Ka * [HCOOH] / [NaCOOH][/tex]
Let's assume that the fraction of the equivalence point is 0.5, which means that half of the initial concentration of formic acid has reacted with NaOH. Let's also assume that we have added 20 mL of NaOH so far:
[tex][HCOOH] = 0.15 M - 0.5 * 0.02 L * 0.25 M\\[HCOOH] = 0.14 M\\[NaCOOH] = 0.5 * 0.02 L * 0.25 M\\[NaCOOH] = 0.0025 M[/tex]
[tex][H_3O^+] = 1.77 * 10^{-4} * (0.14 / 0.0025)[/tex]
[tex][H_3O^+] = 9.88 * 10^{-3} M[/tex]
[tex]pH = pKa + log([NaCOOH] / [HCOOH])\\\\pH = 3.75 + log([0.0025 / 0.14])\\\\pH = 3.26[/tex]
Therefore, at half the equivalence point (20 mL of NaOH added), the pH of the solution is 3.26.
3. At the equivalence point:
The pH can be calculated using the hydrolysis constant (Kb) of sodium formate:
[tex]NaCOOH +[/tex] [tex]H_2O[/tex] ⇌ [tex]NaOH + HCOOH[/tex]
[tex]Kb = [NaOH][HCOOH]/[NaCOOH][/tex]
Let's assume that we have added 30 mL of NaOH, which is the equivalent amount to the initial concentration of formic acid:
[tex][NaOH] = [HCOOH] = 0.15 M\\[NaCOOH] = 0.5 * 0.03 L * 0.25 M\\[NaCOOH] = 0.00375 M\\\\Kb = [NaOH]^2 / [NaCOOH]\\\\Kb = (0.15)^2 / 0.00375\\\\Kb = 6\\\\pOH = -log[OH-]\\pOH = -log\sqrt{(Kb * [NaCOOH])} \\pOH = -log\sqrt{6 * 0.00375} \\pOH = 3.28\\pH = 14 - pOH\\pH = 10.72[/tex]
Therefore, at the equivalence point (30 mL of NaOH added), the pH of the solution is 10.72.
4. At some volume past the equivalence point:
After the equivalence point, the solution will be basic due to the excess of NaOH. The pH can be calculated using the concentration of NaOH and the volume of NaOH added:
pOH = -log[OH-]
pOH = -log(0.25 × (volume of NaOH added - volume of NaOH at equivalence point))
pH = 14 - pOH
Let's assume that we have added 50 mL of NaOH past the equivalence point:
pOH = -log(0.25 × (0.05 L - 0.03 L))
pOH = 1.70
pH = 14 - pOH
pH = 12.30
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I have 0.00001 M, 0.0001 M, 0.001 M, 0.01 M, 0,1 M silver nitrate solutions dissolved in water. In the lab experiment, I am supposed to measure the potential difference (I dont think this matters for this question). And then I am asked to calculate the standard electrode potential and the activity coefficient of Ag+ solution.
The addition of concentrated nitric acid to each standard solution... Select all that are True.
A. results in a relatively constant ionic strength across the standard solutions.
B. results in a low pH, which is required for this experiment.
C. results in a high pH, which is required by this experiment.
D. changes the potential of the reference electrode.
E. results in the required amount of excess nitrate ion.
The addition of concentrated nitric acid to each standard solution results in a relatively constant ionic strength across the standard solutions is true. Adding concentrated nitric acid to the standard solutions results in a low pH (less than 2) because the acid is strong. The correct answer is option a and c.
The addition of concentrated nitric acid to each standard solution results in a low pH, which is required for this experiment is false.
What is the purpose of adding concentrated nitric acid to each standard solution?The purpose of adding concentrated nitric acid to each standard solution is to make the ionic strength in all the standard solutions relatively constant. This makes it possible to estimate the Standard Electrode Potentials and the activity coefficients of Ag+ solutions.
The addition of concentrated nitric acid to each standard solution changes the potential of the reference electrode is false. The potential of the reference electrode will remain constant because the same reference electrode will be used for all measurements.
The addition of concentrated nitric acid does not affect the potential of the reference electrode results in a high pH, which is required by this experiment is false.
The low pH is required for the formation of the silver/silver chloride reference electrode. The low pH also helps to keep AgCl in solution.
The addition of concentrated nitric acid to each standard solution results in the required amount of excess nitrate ion is false. The amount of excess nitrate ion will depend on the concentration of the Ag+ solution being tested. The role of nitrate ion is to increase the solubility of AgCl.
Therefore, the amount of nitrate ion required will be different for each Ag+ solution.
The correct answer is option a and c.
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what is the ph at the equivalence point of a weak base-strong acid titration if 20.00 ml of naocl requires 28.30 ml of 0.25 m hcl to reach the equivalence point? ka
The pH at the equivalence point of a weak base-strong acid titration can be determined using the balanced chemical equation and the stoichiometry of the reaction.
In this case, the weak base is not specified, so it is not possible to calculate the exact pH. However, given the volumes and concentrations of NaOCl and HCl used, it is possible to calculate the number of moles of each substance involved in the reaction. Then, using the balanced chemical equation and the stoichiometry, it is possible to determine the number of moles of the weak base and the resulting pH at the equivalence point.
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heparin sodium 10u/ml will be used for flushing the artery intraoperatively the vial reads heparin 10,000 u/ml. how much heparin will be added to 500ml
0.5 ml of heparin solution should be added to 500 ml to prepare heparin sodium 10 U/ml solution for flushing the artery intraoperatively.
Heparin sodium solution is a sterile, clear, colorless solution that contains heparin, a medication that is used as an anticoagulant or blood thinner. Heparin sodium solution is used to prevent blood clots from forming in conditions such as deep vein thrombosis, pulmonary embolism, and during certain medical procedures such as dialysis and heart surgery.
The solution is usually administered by injection or intravenous infusion, and is available in different strengths and volumes depending on the patient's condition and the intended use. Heparin sodium solution is stored in a cool and dry place, and should be handled and disposed of properly to avoid contamination and injury.
To prepare heparin sodium solution with a concentration of 10 U/ml using a vial of heparin 10,000 U/ml
Determine the total amount of heparin needed:
10 U/ml x 500 ml = 5,000 U
Calculate the volume of heparin solution needed:
5,000 U ÷ 10,000 U/ml = 0.5 ml
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A chemistry graduate student is given of a acetic acid solution. Acetic acid is a weak acid with . What mass of should the student dissolve in the solution to turn it into a buffer with pH ? You may assume that the volume of the solution doesn't change when the is dissolved in it. Be sure your answer has a unit symbol, and round it to significant digits.
The student should dissolve approximately 4.1 g of NaC₂H₃O₂ to prepare a buffer solution with pH 4.74.
To prepare a buffer solution with pH 4.74, the graduate student needs to add an appropriate amount of sodium acetate (NaC₂H₃O₂) to the given acetic acid solution.
First, we can use the Henderson-Hasselbalch equation:
pH = pKa + log ([A-]/[HA])
where pH is 4.74, pKa is the acetic acid pKa (1.76), [A-] is the concentration of the acetate ion, and [HA] is the concentration of acetic acid. We need to find [A-] and [HA] in moles per liter.
4.74 = 1.76 + log ([A-]/[HA])
Rearranging the equation and solving for the ratio [A-]/[HA]:
[A-]/[HA] = 10^(4.74 - 1.76) ≈ 1
Since the ratio of acetate ion to acetic acid is approximately 1, this means that the concentrations of NaC₂H₃O₂ and acetic acid should be equal.
Now, let's calculate the moles of acetic acid present in the solution. Acetic acid's molecular weight is 60.05 g/mol. If the student has 500 mL of a 0.10 M solution:
moles of acetic acid = 0.10 mol/L * 0.5 L = 0.05 mol
Since we need an equal amount of sodium acetate, the moles of NaC₂H₃O₂ required will also be 0.05 mol. The molecular weight of NaC₂H₃O₂ is 82.03 g/mol. To find the mass of NaC₂H₃O₂ needed, we can use the formula:
mass = moles * molecular weight
mass of NaC₂H₃O₂ = 0.05 mol * 82.03 g/mol ≈ 4.1 g
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46. Sulfuric acid (H₂SO4) reacts with aqueous sodium cyanide, forming hydrogen cyanide gas and aqueous sodium sulfate.
Answer:
The balanced chemical equation for the reaction between sulfuric acid (H₂SO4) and aqueous sodium cyanide is:
H₂SO4 + 2 NaCN → 2 HCN + Na₂SO₄
In this reaction, sulfuric acid (H₂SO4) reacts with aqueous sodium cyanide (NaCN) to produce hydrogen cyanide gas (HCN) and aqueous sodium sulfate (Na₂SO₄).
To balance the equation, two moles of sodium cyanide are required for every mole of sulfuric acid. The reaction produces two moles of hydrogen cyanide and one mole of sodium sulfate for every two moles of sodium cyanide and one mole of sulfuric acid.
It's important to note that hydrogen cyanide gas is highly toxic and dangerous, and proper safety precautions must be taken when handling this chemical.
Explanation:
calculate the ph of the solution obtained by mixing 55.00 ml of 0.0954m hcl and 47.00 ml of 0.1095m naoh.
The reaction between HCl and NaOH produces a neutral solution, so the resulting pH is 7, as there are no excess H+ or OH- ions.
To work out the pH of the arrangement acquired by blending 55.00 mL of 0.0954 M HCl and 47.00 mL of 0.1095 M NaOH, we first need to decide how much corrosive and base that respond. The reasonable condition for the response is:
HCl + NaOH → NaCl + H2O
The stoichiometry of the response shows that one mole of HCl responds with one mole of NaOH to frame one mole of NaCl and one mole of water. Thusly, the quantity of moles of HCl and NaOH can be determined as follows:
moles of HCl = 0.05500 L x 0.0954 mol/L = 0.00525 mol
moles of NaOH = 0.04700 L x 0.1095 mol/L = 0.00514 mol
Since the response is between serious areas of strength for an and a solid base, the subsequent arrangement will be nonpartisan. This is on the grounds that the solid corrosive and base will totally respond to shape a salt and water, leaving no overabundance H+ or Goodness particles in the arrangement. Accordingly, the pH of the subsequent arrangement will be 7.
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Express your answer as a balanced chemical equation.
Please find attached herewith the solutions for your questions.
To balance a chemical equation, you have to keep in mind these steps:
Write down the correct formulae of reactants and products.Find out which element has maximum number of atoms. Then balance that element on the other side.Now, balance other elements accordingly. For doing it easily, you can make two columns and do LHS and RHS.Verify that the number of atoms of each element is balanced in the final equation.Write the states of the compounds only if you know them.Hope it helps.
If you have any query, feel free to ask.
ferrous iron (fe2 ) oxidation generally occurs in environments with a. highoxygencontent b. alkalineconditions c. acidic conditions o d. littleornolightpresent
Ferrous iron[tex](Fe2+)[/tex]oxidation generally occurs in environments with high oxygen content. The correct option is a.
This is because the oxidation process involves the conversion of ferrous ions [tex](Fe2+)[/tex] to ferric ions [tex](Fe3+)[/tex]through a reaction with oxygen. Oxidation is the process by which a substance loses electrons.
Ferrous iron [tex](Fe2+)[/tex] oxidation involves the loss of two electrons. Ferrous iron can be oxidized by a variety of substances, including oxygen, nitrate, and manganese. However, it is most commonly oxidized by oxygen.
The rate of ferrous iron oxidation depends on a number of factors, including temperature, pH, and the presence of other chemicals.
In general, ferrous iron oxidation occurs more quickly in environments with acidic conditions.
This is because the hydrogen ions in acidic solutions can react with ferrous iron to form ferric iron [tex](Fe3+)[/tex], which is more stable and less soluble than ferrous iron. As a result, it precipitates out of the solution, which makes it easier to remove.
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.
Read 1 John 5:14-15 and James 5:15-16. What can we learn from these verses about prayer? Write a paragraph in which you identify key points from these verses and apply them to your daily life. Use complete sentences.
The verse exhorts us to pray by God's will because it assures us that if we make a request that is in harmony with his plans, he will hear us and grant our desire.
What can we learn from John 1 14?In the meantime, James 5:15–16 exhorts us to confess our faults to one another and to pray for bodily healing, knowing that a good person's ardent prayer has enormous power and can be successful in bringing about healing and forgiveness.
What is the main point of John Chapter 14?These verses demonstrate to us the importance of prayer in our relationship with God and the potency of prayer in meeting both spiritual and material demands. I will try to pray more firmly as I apply these verses to my daily life, believing that God hears my prayers and will grant them by his will. I shall also bear in mind to offer prayers for my own and others' bodily well-being.
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