Assuming that the volume of the tyre does not change, and that air behaves as an ideal gas, find the gauge pressure of the air in the tyre.
What is volume ?
Volume is nothing but the quantity of area the container fills or holds. Volume is always in a dimensional space, especially three. A solid always has a definite shape. Volume is anything to be held, like solid, liquid, or gas. The volume should be in ml, l, and so on. Finding the volume to know the weight and depth of the container.
What is pressure ?
The pressure is nothing but the vital force applied to the object or particle. Pressure calculates how much force will be gone or extended to the object. Pressure is the force that is perpendicular to the power of extension. The standard unit of pressure is the pascal (pa). The formula for pressure, p= F/ A, p= pressure, F= magnitude, A= area of the surface
pressure is the scalar quantity. Pressure is also expressed in the term atmospheric pressure, atm.
Therefore, Assuming that the volume of the tyre does not change, and that air behaves as an ideal gas, find the gauge pressure of the air in the tyre.
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For the balanced reaction, how many molecules of CO2 are produced when 56 molecules of C6H6 react?
Hey it would be great if someone could answer this for me quick. In this image why is the Roman numeral in #3, 1 and not 2 if the ones above were just the small numbers in the compound? How do I determine what the Roman numeral is and why do you different oxidation states, for example since Cu, copper has multiple oxidation states, like in #3&4 how do ik which one to use for which question etc. if this can be cleared up I’d appreciate it :))
Using roman numerals, the oxidation number of the metals in the given compounds are given below:
I. SnCI₂ (Tin (II) Chloride): Oxidation number of Sn = II
2. SnCl₄ (Tin (IV) Chloride): Oxidation number of Sn = II
3. Cu₂O (Copper (I) Oxide): Oxidation number of Cu = I
4 CuO (Copper (II) Oxide): Oxidation number of Cu = II
What is the oxidation number of elements?An atom's or ion's oxidation number, also known as its state or oxidation number, refers to the number of electrons the atom or ion has either received or lost in comparison to a neutral atom.
Electropositive metal atoms of groups I, 2 and 3 shed a particular number of electrons, while their positive oxidation numbers remain constant.
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what type of reaction is shown ?
At a certain temperature, Keq = 0.90 for the following reaction: FeO ( s ) + CO ( g ) ⇌ Fe ( s ) + CO 2 ( g ) If CO2(g) at 9.00 bar is injected into a container that contains excess Fe, what will be the partial pressures of CO(g) present at equilibrium? DO write the units in.
Answer:
We can solve this problem using the equilibrium expression and the stoichiometry of the reaction.
The equilibrium constant expression for the reaction is:
Keq = [Fe][CO2]/[FeO][CO]
Since the amount of Fe present is in excess, we can assume that its concentration remains essentially constant, and we can treat the reaction as if it were taking place between CO gas and solid FeO.
Let's start by writing the initial concentrations of CO and CO2 in the container before they reach equilibrium. We know that CO2 is injected at a pressure of 9.00 bar, so its initial concentration is:
[CO2] = 9.00 bar
Since there is no CO gas initially present, [CO] = 0.
The reaction stoichiometry tells us that for every mole of CO that reacts, one mole of CO2 is produced. Therefore, if x is the amount (in moles) of CO that reacts to reach equilibrium, the concentrations at equilibrium will be:
[CO2] = 9.00 bar + x bar
[CO] = x bar
At equilibrium, the equilibrium constant expression can be used to solve for x:
Keq = [Fe][CO2]/[FeO][CO]
0.90 = [Fe](9.00 bar + x bar)/[FeO](x bar)
We can simplify this expression by assuming that the amount of FeO converted to Fe and CO2 is small compared to the initial amount of FeO, and hence the amount of FeO left at equilibrium is approximately equal to the initial amount of FeO. Therefore, we can cancel out [FeO] from the above equation:
0.90 = [Fe](9.00 bar + x bar)/x
Solving for x, we get:
x = [Fe] * 9.00 bar / (0.90 + [Fe])
Now we can substitute the value of x into the equilibrium concentrations:
[CO2] = 9.00 bar + x bar
[CO] = x bar
We can also use the ideal gas law to relate the pressure of CO to its concentration:
P = nRT/V
where P is the pressure, n is the number of moles, R is the gas constant, T is the temperature, and V is the volume. Since the volume is not given, we can assume that it remains constant throughout the experiment and hence cancel it out from the equations. Therefore, the pressure of CO and CO2 at equilibrium will be:
[CO2] = 9.00 bar + x bar = 9.00 bar + ([Fe] * 9.00 bar / (0.90 + [Fe])) bar
[CO] = x bar = ([Fe] * 9.00 bar / (0.90 + [Fe])) bar
We can simplify this further by multiplying and dividing by 0.90:
[CO2] = (9.00 bar * (0.90 + [Fe]) + 9.00 bar * [Fe]) / (0.90 + [Fe]) = (8.10 bar + 9.00 bar * [Fe]) / (0.90 + [Fe])
[CO] = (9.00 bar * [Fe]) / (0.90 + [Fe])
Therefore, the partial pressure of CO at equilibrium is (9.00 bar * [Fe]) / (0.90 + [Fe]) bar, where [Fe] is the concentration of Fe in moles/liter. The units of the concentration depend on the volume of the container, which is not given.
Define class A burette a
A Class A burette is a type of laboratory glassware used for precise volumetric measurements of liquids.
What is a class A burette ?This burette is a graded glass tube with a glass tip at one end. It is utilized to dispense liquids in predetermined quantities. Most experiments requiring titration use a burette.
It is typically made of borosilicate glass and has a long, narrow, cylindrical shape with a stopcock at the bottom for dispensing the liquid. The burette is usually graduated in milliliters (mL) with the smallest graduation being 0.1 mL.
Class A burettes are manufactured and tested according to strict standards set by organizations such as the National Institute of Standards and Technology (NIST) in the United States, and the International Organization for Standardization (ISO) globally.
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Q1) We need to study an enzyme activity that works best at pH equals to 4,Which one of the following you will choose?
Buffer name pka Buffer capacity
Acetic acid 4.32 3.32-5.32
TRIS 8.1 7.1-9.1
Q2) The pka of carbonic acid is 6.37. At which ranges of pH carbonic acid can work as a good buffer?
H2CO3 —> HCO3- + H+
Q3) The most effective buffer is obtained when [------] = [------] and thus pH = pka
Q4) When the pH of the solution is below the pka of the wk acid / or wk base, what is the predominant form of the buffer, is it the basic form or the acidic form? The protonated form or the deprotonated form?
Answer:
Answered By Unish ©
Verified Answer ✅
Explanation:
Q1) For an enzyme activity that works best at pH 4, we would choose the buffer with a pKa closest to the desired pH. In this case, the buffer with acetic acid would be the best choice since its pKa of 4.32 is closest to pH 4.
Q2) A buffer is most effective when the pH is within 1 unit of its pKa. For the carbonic acid buffer system, the pKa is 6.37. Therefore, the buffer will work best at a pH range between 5.37 and 7.37. At a pH below 5.37, the buffer will be mostly in the protonated form (H2CO3), and at a pH above 7.37, the buffer will be mostly in the deprotonated form (HCO3-).
Q3) The most effective buffer is obtained when the concentration of the weak acid (HA) is equal to the concentration of its conjugate base (A-), and thus the pH is equal to the pKa of the buffer. This is because the buffer can neutralize added acid or base without causing a large change in pH.
Q4) When the pH of the solution is below the pKa of the weak acid (or weak base), the predominant form of the buffer will be the protonated form (HA) since at this pH, the weak acid has not yet donated a proton to become its conjugate base. Therefore, the buffer will be in the acidic form (HA), and will be able to accept protons to counteract any added base.
The molecule XF3 has a dipole moment. Is X boron or phosphorus?
X is phosphorus. The chemical formula XF3 indicates that X is a group 15 element, which can only be either nitrogen, phosphorus, arsenic, or antimony.
What is phosphorus?Phosphorus is an essential element for all living organisms, and is found in proteins, DNA and cell membranes. It is also a key component of energy-storing molecules like adenosine triphosphate (ATP), which powers cellular activity. Phosphorus is found in soil, water and food sources, and is essential for plants to synthesize essential compounds like sugars, starches, and fats. It is also a major part of fertilizers, and is key for maintaining healthy soil and promoting plant growth. In humans, phosphorus is necessary for bone and teeth formation, energy metabolism, and the growth and maintenance of cells. Deficiencies in phosphorus can cause stunted growth, bone deformities, and a weakened immune system.
The dipole moment of XF3 indicates that X is not nitrogen, because nitrogen does not form molecules with a dipole moment. Therefore, X must be phosphorus.
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for (figure 1), does the surface enclose a net positive charge, a net negative charge, or no net charge?
According to the given statement There is thus no net charge on the surface.
What is positive charge with example?Protons can be added to an atom or other substance with a neutral charge to produce a positive charge. A neutrally charged item can also acquire a positive charge by having its electrons removed. The positive end of a battery, also known as the cathode, attracts electrons because of its positive charge.
Are protons positive charges?A neutron is a subatomic particle with a positive charge. Protons are held together in the atom's nucleus by the strong nuclear force. The neutron is a kind of subatomic particle without charge (they are neutral).
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Draw a plausible transition state for the bimolecular reaction of nitric oxide with ozone. Use dashed lines to indicate the atoms that are weakly linked together in the transition state.No(g) + o3(g) --> NO2(8) + O2(g)
One weakly bound intermediate is formed between the oxygen atom of O3 and one of the nitrogen atoms of NO, and another weakly bonded is formed between the oxygen atom of O3 and the nitrogen atom of NO.
Draw a plausible transition state for the bimolecular reaction of nitric oxide with ozone.The bond between nitrogen and oxygen in NO is partially broken, while the bond between the two oxygen atoms in O3 is also partially broken. The bonds between nitrogen and oxygen in NO2 and between the two oxygen atoms in O2 are partially formed.
How do ozone and nitric oxide interact?Nitric oxide and ozone then easily combine to form nitrogen dioxide and oxygen. No net ozone gain occurs as a result of the technique mentioned above. Concentrations are higher in the troposphere than can be explained by these processes alone.
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Oxidation number for S in the compound
ZnSO3
In ZnSO3, O is oxidized to a value of two. S in ZnSO3 is oxidized to +4 by zinc. ZnSO3 has a +2 Zn oxidation number.
What do you mean by "composite"?When two or more separate chemical components are mixed in a specific proportion, the resultant substance is called a compound. The collision of the components creates biochemical connections that have been complex to break.
Which are they—elements or compounds?There is just one sort of atom per element, making them pure substances. When a variety of different type of elements are combined chemically in predetermined ratios, the resultant product is called a compound. The Earth naturally has about 94 of the almost 118 elements that make up the periodic table.
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How do you find the concentration of hydrogen ions
Answer:
The concentration of hydrogen ions in a solution can be found by measuring the pH of the solution using a pH meter or pH paper, and then using the following equation:
[H+] = 10^(-pH)
where [H+] is the concentration of hydrogen ions in moles per liter (M) and pH is the negative logarithm of the hydrogen ion concentration.
Alternatively, if you know the concentration of a strong acid or base in the solution, you can calculate the concentration of hydrogen ions using the concentration of the acid or base and the dissociation constant (Ka or Kb) for the acid or base. For example, for a strong acid, the concentration of hydrogen ions is equal to the concentration of the acid, while for a strong base, the concentration of hydroxide ions is equal to the concentration of the base.
A 0.35- g g sample of vegetable oil is placed in a calorimeter. When the sample is burned, 17.9 kJ k J is given off. Part A What is the energy value ( kcal/g k c a l / g ) for the oil?
Answer:
The energy value of the vegetable oil is 12.8 kcal/g.
Explanation:
We can use the following formula to calculate the energy value of the vegetable oil:
Energy value = energy released / mass of sample
We are given that the mass of the sample is 0.35 g and the energy released is 17.9 kJ. We need to convert the energy to calories and the mass to grams to get the answer in kcal/g.
1 kJ = 1000 J
1 cal = 4.184 J
So,
17.9 kJ = 17.9 x 1000 J = 17900 J
17900 J = 17900 / 4.184 cal = 4274.5 cal
Now we can calculate the energy value:
Energy value = 4274.5 cal / 0.35 g = 12212.9 cal/g
Finally, we can convert the answer to kcal/g by dividing by 1000:
Energy value = 12212.9 cal/g / 1000 = 12.8 kcal/g (rounded to one decimal place)
complete the table to identify the types of reactions each chemical equation represents. some reactions may be classified in more than one way
Chemical equation Type of reaction
[tex]S_{8} +O_{2}[/tex] → [tex]8SO_{2}[/tex] Combination reaction
[tex]6Li + N_{2}[/tex] → [tex]2 Li_{3}N[/tex] Combination reaction
[tex]AgNO_{3} + KBr[/tex] → [tex]AgBr + KNO_{3}[/tex] Displacement reaction
[tex]CaCO_{3}[/tex] → [tex]CaO + CO_{2}[/tex] Decomposition reaction
[tex]Mg + Pb(NO_{3})_{2}[/tex] → [tex]Pb + Mg(NO_{3})_{3}[/tex] Double displacement reaction
Combination reaction : A binding reaction is a reaction in which two or more substances combine to form one new substance. Binding reactions are also called synthesis reactions.
Displacement reaction : A chemical reaction in which a more reactive element displaces a less reactive element from a salt solution.
Decomposition reaction : Reactions in which one compound breaks down into two or more simpler compounds are called decomposition reactions.
Double displacement reaction : A chemical reaction in which ions are exchanged between two reactants to form a new compound is called a double displacement reaction.
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Enter a balanced equation for the reaction of KOH and Cu(NO3)2 . Express your answer as a chemical equation. Identify all of the phases in your answer. Enter noreaction if no precipitate is formed.
For each compound, the states (aq) for aqueous, or dissolved in water, and (s) for solid, or precipitate created, are used to denote their states.
What occurs when sodium hydroxide interacts with copper II nitrate?A mixture made up of a sodium nitrate solution and a copper(II) hydroxide precipitate is created when copper(II) nitrate and sodium hydroxide solutions are combined.
KOH and Cu(NO3)2 react, and the balanced equation for the reaction is
2KOH(aq) + Cu(NO3)2(aq) Cu(OH)2(s) + 2KNO3 (aq)
Copper(II) hydroxide (Cu(OH)2) and potassium nitrate are produced in this reaction between potassium hydroxide (KOH) and copper(II) nitrate (Cu(NO3)2) (KNO3).
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when solid zn metal is put into an aqueous solution of niso4 , solid ni metal and a solution of znso4 result. write the net ionic equation for the reaction. (use the solubility rules provided in the owl preparation page to determine the solubility of compounds.) (be sure to specify states such as (aq) or (s). if a box is not needed leave it blank.)
The net ionic equation is;
Zn(s) + Ni^2+(aq) ----> Zn^2+(aq) + Ni(s)
What is the net ionic equation?In chemistry, a net ionic equation is a chemical equation that only shows the species that are involved in a chemical reaction and undergo a change. It excludes spectator ions, which are ions that are present in the reaction mixture but do not participate in the reaction itself.
To write a net ionic equation, the first step is to write a balanced chemical equation for the reaction, including the state symbols for each reactant and product.
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select the choice that best describes the relationship of the pair of compounds. two compounds. compound 1 has a chiral carbon with a methyl group pointing up and a hydrogen pointing to the lower left. on the right is a wedged bond to fluorine and a dashed bond to ethyl. compound 2 has a chiral carbon bonded to a methyl group pointing up and an ethyl group pointing to the lower left. on the right there is a wedge bond to fluorine and a dashed bond to hydrogen.
These two compounds are diastereomers. As stereoisomers that are not mirror reflections of one another, stereoeomers differ from one another in terms of their physical and chemical characteristics.
What are diastereomers?In this instance, the two compounds have identical atom connectivity, but they differ in how their substituents are arranged spatially around one or more chiral centres.
The chiral carbon is covered by the identical substituents in both molecules, but in a different arrangement. In contrast to compound 2, which has an ethyl group pointing to the lower left and a methyl group pointing up, compound 1 has a hydrogen atom pointing to the lower left and a methyl group pointing up. Because of the differences in how the molecules are arranged spatially around the chiral carbon, the compounds have unique physical and chemical characteristics.
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Vinegar, a common household item, is used in cleaning, cooking, baking and meat preservation. Vinegar contains acetic acid, hc2h3o2 which gives vinegar its' sour taste and pungent smell. What is the percent composition of carbon in acetic acid?.
The percent composition of carbon in vinegar is 40.04%. This is because acetic acid is a molecule composed of four atoms 4 H, 2 C and 2 O atoms, with the molecular formula of acetic acid is [tex]CH3COOH[/tex].
To calculate the percent composition of carbon in acetic acid, we must first determine the mass of each element in the molecule. The atomic mass of carbon is 12.011, the atomic mass of hydrogen is 1.008, and the atomic mass of oxygen is 15.999. When multiplied by their respective subscripts, we get the relative molecular mass of acetic acid as 60.046. Now that we know the relative molecular mass of acetic acid, we can calculate the percent composition of carbon by dividing the mass of carbon in the molecule (12.011) by the total molecular mass (60.046). This gives us 0.4004, which can be expressed as a percentage by multiplying it by 100 giving us 40.04%.
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At what temperature would the reaction proceed with a rate four times faster than at 460 k?.
The reaction would proceed with a rate four times faster than at 460 K at a temperature of 1840 K (1567°C).
What is temperature?Temperature is a measure of the amount of thermal energy present in a system. It is expressed in units of energy, usually degrees Celsius (°C) or degrees Fahrenheit (°F). Temperature is an important physical property of matter as it is directly related to the average kinetic energy of the particles that make up the system. Temperature can be affected by a variety of factors, including pressure, concentration, type of material, and radiation.
The rate of a reaction is typically proportional to the temperature, so the rate at a temperature four times higher than 460 K would be four times faster. Therefore, the reaction would proceed with a rate four times faster than at 460 K at a temperature of 1840 K (1567°C).
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A scientist needs to determine the average volume of five water samples collected for an experiment. What is the best way for the scientist to determine the average volume of the samples?.
The scientist should use precise measuring instruments, take multiple measurements if necessary, and record the data accurately to ensure the integrity of the results.
To determine the average volume of five water samples collected for an experiment, the scientist should take the following steps:
Measure the volume of each water sample using a graduated cylinder or another precise measuring instrument. Add the volume measurements of all five samples together to obtain the total volume. Divide the total volume by the number of samples (in this case, five) to obtain the average volume.
This method, known as calculating the arithmetic mean, is the most straightforward and accurate way to determine the average volume of the samples. It takes into account all of the individual sample measurements and provides a single value that represents the central tendency of the data.
It is important to note that accurate measurement of each sample is critical to obtaining a reliable and valid average volume.
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When 0.0292 g of an unknown compound was dissolved in 4.62 g of benzene the molality of the solution, obtained by freezing point depression, was
0.0897 m. Calculate the molar mass of the compound.
(The masses and molality should not be rounded in the calculation, as this can cause rounding errors in the final answer.)
The molar mass of the unknown compound is 17.4 g/mol.
How to calculate the molar mass of the compound?
First we can use the freezing point depression equation to relate the molality of the solution to the molar mass of the unknown compound:
ΔTf = Kf * m
Where
ΔTf is the freezing point depression Kf is the freezing point depression constant for benzene (5.12 °C/m) m is the molality of the solutionWe can rearrange the equation to solve for the molality:
m = ΔTf / Kf
Substituting the given values, we have:
m = 0.0897 mol/kg
ΔTf = 1.86 °C
Kf = 5.12 °C/m
m = ΔTf / Kf = 1.86 °C / (5.12 °C/m) = 0.3633 m
Now we can use the definition of molality to calculate the moles of the unknown compound:
molality = moles of solute / mass of solvent (in kg)
0.3633 = moles of solute / 4.62
moles of solute = 0.3633 * 4.62 = 1.676 g/mol
Finally, we can calculate the molar mass of the unknown compound using the given mass of 0.0292 g:
molar mass = mass / moles = 0.0292 g / 1.676 mol = 17.4 g/mol
Therefore, the molar mass of the unknown compound is 17.4 g/mol.
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20. 0 g of cacl2 is dissolved in 250. Ml of water in a coffee cup calorimeter. The temperature of the solution increases from 25oc to 37oc. Calculate the enthalpy change for the dissolution of cacl2 in kj/mol. Assume a density of 1 g/ml and a specific heat capacity of 4. 184 j/g-k.
20. 0 g of CaCl₂ is dissolved in 250. M of the water in a coffee cup calorimeter. The temperature of the solution will increases from 25 °C to 37 °C. The enthalpy change for the reaction is 69.73 kJ/mol
Mass of the solution = mass of water + mass of calcium chloride
Mass of the solution = 250 g + 20 g
= 270 g
Mass of water = ?
The Volume of water = 250 mL
The Density of water = 1.00 g/mL
The Mass = Density × Volume
m = 1.00 g/mL × 250 mL
= 250 g
The heat gained by the solution :
q = m c ΔT
q = 250 × 4.814 ( 37 - 25 )
q = 12552 J
The Heat energy will released during the reaction = q'
q' = - q = - 12552 J
Moles of calcium chloride, n = 20 / 111
= 0.180 mol
The enthalpy change = q' / n
= - 12552 / 0.180
= 69733.3 J/mol = 69.73 kJ/mol
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50. 0 grams of kci is dissolved in water to make a 4. 00 l solution. What is the molarity of the solution? (molar mass of kci = 74. 5 g/mol).
The molarity of the solution is 0.168 mol/L. Moles is a unit of measurement used in chemistry to express the amount of a chemical substance.
To find the molarity of the solution, we need to use the formula:
Molarity = moles of solute / liters of solution
First, let's calculate the moles of KCl in the solution:
moles of KCl = mass of KCl / molar mass of KCl
mass of KCl = 50.0 g
molar mass of KCl = 74.5 g/mol
moles of KCl = 50.0 g / 74.5 g/mol = 0.6711 mol
Next, we can plug in the values into the formula for molarity:
Molarity = moles of solute / liters of solution
moles of solute = 0.6711 mol
liters of solution = 4.00 L
Molarity = 0.6711 mol / 4.00 L = 0.168 mol/L
Therefore, the molarity of the solution is 0.168 mol/L.
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use the interactive to observe the reactions between various metals and metal cation solutions. determine whether a reaction occurs for each metal-metal nitrate solution pair.
Aluminum and Sodium Nitrate: No Reaction
What is sodium?Sodium is a chemical element found in nature as a silver-white metal. It is the sixth most abundant element in the Earth's crust, making up around 2.8 percent of the total mass of the crust. It is also one of the most important elements in human diet. Sodium is essential for many biological processes, such as maintaining water balance, transporting nutrients, and regulating nerve impulses. It can be found in many foods, such as table salt, dairy products, seafood, and processed foods. It is also an important component of many medications, such as antacids, diuretics, and blood pressure medications. Without adequate sodium in the diet, people may experience headaches, fatigue, muscle cramps, and other symptoms. Too much sodium in the diet, however, can increase the risk of high blood pressure, stroke, and heart disease.
Aluminum is more reactive than sodium, so a reaction will not occur when they are combined. Aluminum will not react with the sodium nitrate because sodium is not reactive enough to cause a reaction.
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The Ka of acetic acid (HC2H3O2) is 1.8 x 10-5. What is the pH at 25.0°C of an aqueous solution that is 0.100 M in acetic acid?
The pH value for the given aqueous solution is estimated as 2.872.
Explain about the pH and pOH Value?The pH value of a chemical combination makes it simple to determine the total potential hydrogen ion contained in the mixture. Also, a chemical mixture's pOH value makes it simple to figure out the entire potential of hydroxide ions contained in the mixture. A neutral chemical combination will always have a pH value of seven.For the stated question:
Ka of acetic acid : 1.8 x 10-5Temperature T = 25.0°C acetic acid concentration C = 0.1 MpH value of the weak acid is estimated as:
pH = 1/2(pKa - log C)
pH = 1/2( - log (Ka) - log C)
The log of a acidic dissociation constant is shown here by the symbol pKa.Replace all known numbers in the equation above to determine the pH value as,pH = 1/2( - log (1.8 x 10-5) - log 0.1)
pH = 1/2(4.744 + 1)
pH = 2.872
Thus, the pH value for the given aqueous solution is estimated as 2.872.
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Using what you know about pneumatic lifts and gases, what do you think would happen to a pneumatic lift on a cold night in Chicago
For pneumatic elevators operating on cold Chicago nights, lifting capacity may be reduced due to the reduced pressure of the gas contained in the elevator. The exact extent of this drop will depend on the specific conditions of the elevator and the severity of the low temperature.
How much does an airlift system cost?
The average cost of an air suspension system ranges from $500 to over $2,000 depending on vehicle and location. If you just put an auxiliary air suspension spring on your truck, you can consider yourself on the lower end of the cost spectrum.
How long does the airlift take?
eternally! With proper installation and maintenance, our air springs will last indefinitely. Check pressure regularly or use the onboard air system to maintain it. Air Lift offers a lifetime warranty on all air spring kits.
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Match each compound with it's solubilty
A Soluble in ether and aqueous acids (eg HCl)
B Soluble only in aqueous acids
C Soluble in ether, largely insoluble in aqueous solvents
D Soluble only in aqueous bases
E Soluble in ether and weak aqueous bases (eg NaHCO3)
1. Napthalene
2. Benzoic Acid
3. Ethyl-4-aminobenzoate
Answer:
Socialism is another word for a planned economy
Explanation:
true or false
25.0 mL of a 0.2450 M NH4Cl solution is added to 55.5 mL of 0.1655 M FeCl3. What is the concentration of chloride ion in the final solution?
Answer:
the concentrations is 0.0760 M.
Explanation:
The concentration of chloride ion in the final solution is approximately 0.1900 M.
To find the concentration of chloride ion in the final solution, we need to consider the reaction between NH₄Cl and FeCl₃. The reaction can be represented as follows:
NH₄Cl (aq) + FeCl₃ (aq) → NH₄FeCl₄ (aq)
In this reaction, one mole of NH₄Cl reacts with one mole of FeCl₃ to form one mole of NH₄FeCl₄. The balanced chemical equation shows a 1:1 molar ratio between chloride ions (Cl⁻) and NH₄FeCl₄.
First, let's calculate the moles of chloride ions from each solution:
For the NH₄Cl solution:
Volume of NH₄Cl solution (V1) = 25.0 mL = 0.0250 L
Molarity of NH₄Cl solution (M1) = 0.2450 M
Number of moles of chloride ions from NH₄Cl solution = M1 * V1
Number of moles of chloride ions from NH₄Cl solution = 0.2450 mol/L * 0.0250 L
Number of moles of chloride ions from NH₄Cl solution = 0.006125 mol
For the FeCl₃ solution:
Volume of FeCl₃ solution (V2) = 55.5 mL = 0.0555 L
Molarity of FeCl₃ solution (M2) = 0.1655 M
Number of moles of chloride ions from FeCl₃ solution = M2 * V2
Number of moles of chloride ions from FeCl₃ solution = 0.1655 mol/L * 0.0555 L
Number of moles of chloride ions from FeCl₃ solution = 0.00918325 mol
Now, let's add the moles of chloride ions from both solutions:
Total number of moles of chloride ions = Moles from NH₄Cl + Moles from FeCl₃
Total number of moles of chloride ions = 0.006125 mol + 0.00918325 mol
Total number of moles of chloride ions = 0.01530825 mol
Finally, let's calculate the concentration of chloride ions in the final solution:
Total volume of the final solution (Vf) = Volume of NH₄Cl solution + Volume of FeCl₃ solution
Total volume of the final solution (Vf) = 0.0250 L + 0.0555 L
Total volume of the final solution (Vf) = 0.0805 L
Concentration of chloride ions in the final solution (Mf) = Total moles of chloride ions / Total volume of the final solution
Concentration of chloride ions in the final solution (Mf) = 0.01530825 mol / 0.0805 L
Concentration of chloride ions in the final solution (Mf) ≈ 0.1900 M
Therefore, the concentration of chloride ion in the final solution is approximately 0.1900 M.
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An astronomer discovers a new star and wants to measure its temperature. She would typically do this by
llan Learning
Calculate the rate constant, k, for a reaction at 50.0 °C that has an activation energy of 79.8 kJ/mol and a frequency factor
of 6.80 x 1011 s
s-¹.
The rate constant, k, for a reaction at 50.0 °C that has an activation energy of 79.8 kJ/mol and a frequency factor of 6.80 x 10¹¹ s is 0.0040 s⁻¹ .
What is rate constant?The chemical kinetics rate law, which connects the molecular concentration of reactants with reaction rate, uses the rate constant as a proportionality factor. The letter k in an equation designates it, which is also referred to as either the reaction rate constant and reaction rate coefficient.
The rate constant equation may be formulated in a number different ways. A generalized reaction, the first order reaction, as well as a second order reaction all have a form. The Arrhenius equation may also be used to get the rate constant.
rate = A e^(-Ea/RT)
A = frequency factor
Ea = activation energy
R =gas constant (8.314 J/mol/k).
rate = 6.80 x 10¹¹× e^(-79800/8.314/323)
rate = 0.0040 s⁻¹
Therefore, 0.0040 s⁻¹ is the rate constant.
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Reaction of sodium hydroxide with sodium chloride
There will be "no apparent reaction" when sodium hydroxide and sodium chloride react.
Explain the reaction between sodium hydroxide and sodium chloride?A caustic metallic base is sodium hydroxide (Na OH), sometimes referred to as lye or caustic soda. Caustic soda, an alkali, is commonly employed in a variety of sectors, primarily as a potent chemical base in the production of paper, pulp textile, drinking water, as well as detergents. The most widely used base in chemistry labs is sodium hydroxide, which can be used to test for a variety of cations as soon as to produce alkaline media for several reactions, like the Biuret test.While NaCl is a salt, NaOH is a potent alkali. There is no chemical reaction between these two substances. Nothing. There isn't any response.
Thus, there will be "no apparent reaction" when sodium hydroxide and sodium chloride react.
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The complete question is-
Reaction of sodium hydroxide with sodium chloride will produce ______.