A condition known as surface tension is the reason hair/sand stick together when wet.
When sand gets wet, what happens to it?It actually drains into the tiny pores between the grains, not disappearing. The sand is saturated when all of these pores are filled with water; this indicates that the sand is unable to absorb any additional water.
What causes wet objects to stick together?Adhesion is what makes a drop of water a drop. Water is the most cohesive of all the non-metallic liquids. Because of its cohesive properties, water is sticky and forms drops, but chemistry and electricity are involved in more detail to make this possible.
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if an indicator electrode measures a potential relative to the s.c.e. of -0.461 v, what is the potential relative to the ag/agcl reference electrode? (remember: ag/agcl ref sat'd kcl)
To convert the potential relative to the S.C.E. to potential relative to the Ag/AgCl reference electrode, we can use the following equation E(Ag/AgCl) = E(S.C.E.) + E(S.C.E./Ag/AgCl) the potential relative to the Ag/AgCl reference electrode is -0.262 V.
An electrode is a conductor through which electrical current enters or leaves a medium, typically an electrolyte or a solution. Electrodes can be made of various materials, depending on the application, and may be designed to either generate or detect electrical signals. In electrochemistry, an electrode is typically used to facilitate the flow of electrons between a chemical reaction and an external circuit. There are two types of electrodes: the anode and the cathode. The anode is the electrode at which oxidation occurs, while the cathode is the electrode at which reduction occurs.
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Calculate the molar solubility of cadmium sulfide (CdS) in a 0. 010-M solution of cadmium bromide (CdBr_2). The Ksp of CdS is 1. 0 times 10-28. CdS(s) Cd^2+ (aq) + S^2- (aq) A) 2. 0 times 10^-22 M B) 1. 0 times 10^-28 M C) 1. 0 times 10^-18 M D) 1. 0 times 10^-26 M E) 2. 0 times 10^-18
The molar solubility of cadmium sulfide is 1.0 × 10⁻¹⁴ M, under the condition it is placed in a 0.010⁻M solution of cadmium bromide. Then the required option that is the correct answer to this question is Option B.
The given molar solubility of cadmium sulfide included in a 0.010⁻M solution of cadmium bromide can be found applying the ICE approach.
CdS(s) ⇌ Cd²+(aq) + S²⁻(aq)
Ksp = [Cd²+][S²⁻]/[CdS]
1.0 × 10⁻²⁸ = x²/(0.010 - x)
x = 1.0 × 10⁻¹⁴M
Hence, the evaluated molar solubility of CdS is 1.0 × 10⁻¹⁴ M.
Molar solubility aids in evaluating the molar solubility which gives the measure of a substance that could dissolve in a solution prior to the solution getting saturated from that particular substance.
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Some thermometers contain alcohol. Alcohol is used in thermometers because it:.
Unlike the mercury-in-glass thermometer, the contents of an alcohol thermometer are less toxic and will evaporate quickly. The ethanol version is the most widely used due to the low cost and relatively low hazard posed by the liquid in case of breakage.
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the term used to describe when cocaine is treated with an alkaloid to separate it from it's hydrochloride salt is the
The term used to describe the process of treating cocaine with an alkaloid to separate it from its hydrochloride salt is "freebasing". Option D.
The purpose of freebasing is to convert cocaine hydrochloride, which is water-soluble and not suitable for smoking, into a more volatile and heat-stable form that can be smoked for its rapid onset of effects. Freebasing involves dissolving cocaine hydrochloride in a solvent and then adding an alkaloid, typically ammonia or sodium bicarbonate, to release the cocaine alkaloid from the hydrochloride salt. The resulting freebase cocaine is then typically smoked, but is associated with various health and safety risks and is often associated with drug abuse.
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Full Question ;
The term used to describe when cocaine is treated with an alkaloid to seperate it from its hydrochloride salt is
transdermal
coca paste
coca elixir
freebase
what mass (in grams) of nh3 must be dissolved in 475 g of methanol (solvent) to make 0.147 m solution
The 1.504 g of [tex]NH_3[/tex] must be dissolved in 475 g of methanol to make a 0.147 M solution.
To solve this problem, we can use the formula:
molarity = moles of solute/liters of solution
First, we need to convert the mass of methanol to liters:
475 g / 0.7918 g/mL = 600.1 mL = 0.6001 L
Now we can use the formula to find the moles of [tex]NH_3[/tex] needed:
0.147 M = moles of [tex]NH_3[/tex] / 0.6001 L
moles of [tex]NH_3[/tex] = 0.147 M × 0.6001 L = 0.08827 moles
Finally, we can use the molar mass [tex]NH_3[/tex] to find the mass of [tex]NH_3[/tex] needed:
mass of [tex]NH_3[/tex] = moles of [tex]NH_3[/tex] × molar mass of [tex]NH_3[/tex]
mass of [tex]NH_3[/tex] = 0.08827 moles × 17.03 g/mol = 1.504 g
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what would be the height of the column in a barometer if the external pressure was 101 kpa and isopropanol ( d
The height of the column would be [tex]1.03 x 10^2[/tex] m or 103 m approximately. The correct answer is [tex]1.03 x 10^2 m.[/tex]
Option 5 is correct
The height of the column in a barometer is given by the equation:
[tex]h = P/(ρg)[/tex]
where h is the height of the column, P is the external pressure, ρ is the density of the fluid, and g is the acceleration due to gravity.
For the given scenario, the external pressure is 101 kPa and the fluid used is water, which has a density of 1.00 g/cm³.
Converting the units of pressure to Pa, we get:
P = 101000 Pa
Substituting the values in the equation, we get:
h = (101000 Pa) / [(1.00 g/cm³) × (9.81 m/s²) × (100 cm/m)]
h = 103.1 m
Therefore, the height of the column would be [tex]1.03 x 10^2 m[/tex] or 103 m approximately. The correct answer is O) [tex]1.03 x 10^2[/tex] m.
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What would be the height of the column if the external pressure was 101 kPa and water (d = 1.00 g/cm³) was used in place of mercury (height of the column = 0.760 m)?
0.0558 m0.103 m0.760 m10.3 m1.03 x 10² m.why is the salt of the weak acid needed? check all that apply. why is the salt of the weak acid needed?check all that apply. to neutralize added h3o to provide the conjugate base to provide the conjugate acid
The salt of a weak acid is needed to provide its conjugate base. This is because when the weak acid reacts with a strong base, it forms a salt and water. The salt contains the conjugate base of the weak acid, which can react with any excess hydrogen ions (H3O+) in a solution to neutralize it. Additionally, the conjugate base can act as a buffer, helping to maintain the pH of the solution by absorbing excess hydrogen ions or releasing them as needed. The salt does not provide the conjugate acid of the weak acid, as this would require the addition of a strong acid to the solution.In chemistry, a conjugate base is the species that is formed when an acid donates a proton to a base. For example, when hydrochloric acid (HCl) donates a proton to water (H2O), the resulting species is the chloride ion (Cl-), which is the conjugate base of HCl.
Similarly, a conjugate acid is the species that is formed when a base accepts a proton from an acid. For example, when ammonia (NH3) accepts a proton from water (H2O), the resulting species is the ammonium ion (NH4+), which is the conjugate acid of NH3.In general, the conjugate base of a strong acid is weak, and the conjugate acid of a weak base is strong. For example, the conjugate base of HCl (which is a strong acid) is Cl-, which is a weak base. Similarly, the conjugate acid of NH3 (which is a weak base) is NH4+ which is a strong acid.The concept of conjugate base and conjugate acid is important in acid-base reactions and the calculation of acid and base strength.
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Explain Electron pair arrangement, molecular geometry and bond angle of diatomic molecules
Electron pair arrangement is the arrangement of two or more pairs of electrons around a central atom.
What is Electron ?Electron is an open-source framework that allows developers to create cross-platform desktop applications using web technologies such as HTML, CSS, and JavaScript. It is based on the Chromium browser and Node.js and is maintained by GitHub. Electron enables developers to use the same codebase to create applications for Windows, macOS, and Linux without any extra effort. It also allows developers to access native operating system APIs, such as file system access, to create powerful desktop applications.
In diatomic molecules, the electron pair arrangement is linear, meaning that the two pairs of electrons are arranged in a straight line. This linear arrangement results in a linear molecular geometry, with a 180° bond angle. For example, in a diatomic nitrogen molecule, the two nitrogen atoms are arranged in a linear fashion, and the bond angle is 180°.
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We often refer to alkanes as _______________________ because the physical properties of the higher members of this class resemble those of the long carbon chain molecules we find in animal fats and plant oils (Greek aleiphar, fat or oil)
We often refer to alkanes as "hydrocarbons" because the physical properties of the higher members of this class resemble those of the long carbon chain molecules we find in animal fats and plant oils (Greek aleiphar, fat or oil). Alkanes are a class of organic compounds that contain only carbon and hydrogen atoms, with a general formula of CnH2n+2. The physical properties of alkanes, such as boiling point, melting point, and viscosity, increase with the length of the carbon chain. This is because longer carbon chains have more van der Waals forces between the molecules, which makes them harder to separate. The high molecular weight and long carbon chain structure of alkanes make them ideal for use as fuels and lubricants. Additionally, the presence of alkane chains in animal fats and plant oils makes them an important source of energy and nutrients for living organisms.
We often refer to alkanes as aliphatic hydrocarbons because the physical properties of the higher members of this class resemble those of the long carbon-chain molecules we find in animal fats and plant oils
What is aliphatic hydrocarbons?Aliphatic hydrocarbons can be described as the carbon atom-based hydrocarbons.
It should be noed that the Aliphatic hydrocarbons can be seen as the aliphatic hydrocarbons known as alkanes only have one covalent bond. Alkynes are hydrocarbons with a C-C triple bond, whereas alkenes are hydrocarbons with at least one C-C double bond.
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how do chlorofluorocarbons affect the global warming potential? chlorofluorocarbons are produced from a naturally occurring process from living organisms that traps heat increasing the warming potential. chlorofluorocarbons are produced from air conditioning, aerosol, and refrigerants causing an increased warming effect on earth. chlorofluorocarbons are produced from decomposition of organic matter and inhibit the absorption of heat. chlorofluorocarbons are produced from deforestation reducing the global warming potential.
Chlorofluorocarbons (CFCs) affect the global warming potential by increasing the warming effect on Earth. They are not produced from naturally occurring processes or deforestation, but rather from human activities such as the use of air conditioning, aerosols, and refrigerants.
CFCs are man-made chemicals that have a high global warming potential due to their ability to trap heat in the Earth's atmosphere. They also contribute to the depletion of the ozone layer, which further exacerbates the warming effect. When CFCs are released into the atmosphere, they absorb and trap heat, preventing it from escaping into space, thus contributing to the greenhouse effect and global warming.
The production and release of chlorofluorocarbons from human activities have a significant impact on global warming potential by trapping heat in the Earth's atmosphere and depleting the ozone layer. Reducing the use of CFCs and replacing them with more environmentally friendly alternatives is essential to mitigate their harmful effects on our planet.
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To determine the number of moles of Cu in the sample of the mixture, the students measured the absorbance of known concentrations of Cu(NO3)2(aq) using a spectrophotometer. A cuvette filled with some of the solution produced from the sample of the mixture was also tested. The data recorded by one student are shown in the table above. On the basis of the data provided, which of the following is a possible error that the student made? a) the Cu(NO3)2 (aq) from the saample of mixture was not diluted properly b) The spectrophotometer was calibrated with tap water instead of distilled water c) the student labeled the cuvvetes incorrectly , reversing the labels on two of the solutions of known concentration d) the spectrophotometer was originally set to an inappropriate wavelength , causing the absorbance to vary unpredictable
The possible error that the student made is c) the student labeled the cuvettes incorrectly, reversing the labels on two of the solutions of known concentration.
This error would have resulted in incorrect measurements of the absorbance of the known concentrations of Cu(NO₃)₂(aq), leading to incorrect calculations for the number of moles of Cu in the sample of the mixture. If the labels were reversed, the student would have recorded the absorbance of the wrong solution, resulting in incorrect data.
This error would not have been detected during the experiment as the student would have assumed that the labels were correct. Therefore, the calculations made based on the incorrect data would have been incorrect, leading to inaccurate results. To avoid such errors, proper labeling and identification of solutions and equipment are crucial in scientific experiments.
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A positive aldehyde oxidase test is shown by a change in color from yellow to what?.
Aldehyde oxidase is an enzyme that catalyzes the oxidation of aldehydes into carboxylic acids. The positive aldehyde oxidase test shows a change in color from yellow to green.
The aldehyde oxidase test is used to determine the presence of this enzyme in a given sample. When a positive result is obtained, the color of the solution changes from yellow to green. This is because the substrate used in the test, p-nitrobenzaldehyde, is converted into p-nitrobenzoic acid, which has a green color. The intensity of the green color indicates the level of aldehyde oxidase activity in the sample.
The aldehyde oxidase test is commonly used in pharmacology and toxicology to evaluate the metabolism and toxicity of drugs and xenobiotics. It is also used in clinical chemistry to diagnose certain genetic disorders that affect the activity of this enzyme.
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when 70.0 ml of 3.00 m na2co3 is added to 30.0 ml of 1.00 m nahco3, the resultingconcentration of na is:
According to the question the resulting concentration of Na is 0.240 M
What is water?Water is the most abundant substance on Earth and the most essential for all living things. Water is a tasteless, odorless, transparent liquid that is essential for all forms of life. Water is composed of two molecules of hydrogen and one molecule of oxygen, and is found in oceans, lakes, rivers, and streams, as well as in the atmosphere in the form of vapor.
The reaction of Na₂CO₃ and NaHCO₃ results in the formation of Na₂CO₃, water and CO₂.
Moles of Na in Na₂CO₃ = (70.0 mL x 3.00 M) / 1000 mL
= 0.210 mol
Moles of Na in Na₂CO₃ = (30.0 mL x 1.00 M) / 1000 mL
= 0.030 mol
Total moles of Na = 0.210 mol + 0.030 mol
= 0.240 mol
Total volume of solution = 70.0 mL + 30.0 mL
= 100.0 mL
Concentration of Na = (0.240 mol) / (100.0 mL)
= 0.240 M
Therefore, the resulting concentration of Na is 0.240 M
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Aqueous solutions of one of the following is acidic. Which one?
a. NH4NO2
b. NH4CH3COO
c. NH4OCl
d. NH4OBr
e. NH4CN
The acidic aqueous solution among the given options is NH4CN. This compound dissociates in water to form NH4+ (ammonium ion) and CN- (cyanide ion). The NH4+ ion can act as a Bronsted-Lowry acid, donating a proton (H+) to the surrounding water molecules, resulting in the formation of NH3 (ammonia) and H3O+ (hydronium ion). The presence of H3O+ ions increases the acidity of the solution.
On the other hand, NH4OCl does not form an acidic solution. It dissociates into NH4+ and OCl- (hypochlorite ion) in water. Although NH4+ can still donate a proton, the OCl- ion acts as a weak base, accepting protons and neutralizing the solution. As a result, the overall solution remains nearly neutral or slightly basic.
In summary, the acidic solution among the given options is NH4CN, as it dissociates in water to form NH4+ ions that increase the acidity by donating protons, leading to the formation of hydronium ions (H3O+).
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The following data were collected from a Ksp experiment on an alkaline earth hydroxide. Calculate the Ksp of the alkaline earth hydroxide. volume of saturated solution titrated 26.1 ml M molarity of HCI 0.222 volume HCl required for endpoint 15.53 mL
The Ksp of the alkaline earth hydroxide is 6.98 x 10⁻¹⁰. To calculate the Ksp of the alkaline earth hydroxide, we need to use the following equation: Ksp = [OH⁻]² [ M²⁺]
Where [OH⁻] is the concentration of hydroxide ions in the saturated solution, [M²⁺] is the concentration of the alkaline earth metal cation in the saturated solution, and Ksp is the solubility product constant.
To find [M²⁺], we first need to calculate the number of moles of HCl used in the titration. We can do this using the following equation:
n(HCl) = M x V
Where n(HCl) is the number of moles of HCl, M is the molarity of HCl, and V is the volume of HCl used for the titration. Plugging in the values we have:
n(HCl) = 0.222 M x 15.53 mL
n(HCl) = 0.003447 mol
Since HCl and the alkaline earth hydroxide react in a 1:2 ratio, the number of moles of OH⁻ in the saturated solution is twice the number of moles of HCl used in the titration:
n(OH-) = 2 x n(HCl)
n(OH-) = 2 x 0.003447 mol
n(OH-) = 0.006894 mol
To find the concentration of OH⁻ in the saturated solution, we need to divide the number of moles by the volume of the saturated solution titrated:
[OH-] = n(OH⁻) / V
[OH-] = 0.006894 mol / 26.1 mL
[OH-] = 0.000264 M
Finally, we can plug in the values we have found into the Ksp equation:
Ksp = [OH⁻]² [M²⁺]
Ksp = (0.000264)² [M²⁺]
Ksp = 6.98 x 10⁻¹⁰ [M²⁺]
Therefore, the Ksp of the alkaline earth hydroxide is 6.98 x 10⁻¹⁰.
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what a major product would you expect to obtain from the following reaction?in the reaction scheme, a compound undergoes a reaction in the presence of hcl. the reactant contains a ring with five vertices. the first vertex of the ring has a ch2oh group attached with a wedge. the fifth vertex of the ring has a ch2 group attached with wedge. this ch2 group, in turn, is single-bonded to a c atom that has an o atom double-bonded and an och2ch3 group single-bonded.
The chemical appears to be a cyclic hemiacetal as the reactant. The hemiacetal group will protonate in the presence of HCl, resulting in the production of an acetal.
A six-membered cyclic acetal would be the main end product of this reaction. The H and OH groups would be eliminated as water, and the [tex]CH_2OH[/tex] group at the ring's first vertex and the [tex]CH_2[/tex] group at its fifth vertex would combine to produce the acetal group. The carbon atom at the fifth vertex of the resultant cyclic acetal would be linked to an ethoxy group ([tex]OCH_2CH_3[/tex]). The orientation of the [tex]CH_2OH[/tex] group at the ring's first vertex would determine the product's stereochemistry.
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How many grams of beryllium chloride are needed to make 125 ml of a 0. 050 m solution.
You will need approximately 0.5 grams of beryllium chloride to make 125 mL of a 0.050 M solution
To calculate the grams of beryllium chloride needed to make a 125 mL of a 0.050 M solution, follow these steps:
1. Determine the moles of beryllium chloride needed using the given molarity and volume:
Moles = Molarity × Volume (in L)
Moles = 0.050 M × (125 mL × 1 L/1000 mL)
Moles = 0.050 M × 0.125 L
Moles = 0.00625 mol
2. Convert moles to grams using the molar mass of beryllium chloride (BeCl2):
Molar mass of BeCl2 = 9.01 g/mol (Be) + 2 × 35.45 g/mol (Cl) = 79.91 g/mol
Grams = Moles × Molar mass
Grams = 0.00625 mol × 79.91 g/mol
Grams ≈ 0.5 g
You will need approximately 0.5 grams of beryllium chloride to make 125 mL of a 0.050 M solution.
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Which would elute from a column first: a spherical or linear molecule?
This is because a spherical molecule has a more compact structure and therefore experiences less surface interaction with the stationary phase of the column, allowing it to move more easily through the column and elute first.
What is Linear Molecule?
A linear molecule is a molecule that has a straight or chain-like structure, where the atoms are arranged in a line or a chain. Linear molecules are characterized by having two or more atoms connected by single covalent bonds, and they may or may not have double or triple bonds as well.
In contrast, a linear molecule has a more extended structure and experiences more surface interactions with the stationary phase of the column, leading to slower movement through the column and later elution. However, it is important to note that elution order also depends on other factors such as the polarity of the stationary and mobile phases, the size and shape of the column, and the specific properties of the molecules being separated.
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how does that rule that temperature changes the kinetics of a reaction relate to preventing food from spoiling by placing it in a refrigerator?
In summary, by controlling the temperature, refrigeration can prevent the kinetics of chemical reactions that lead to food spoilage, and therefore prolong the shelf life of perishable foods.
Temperature plays a significant role in the rate of chemical reactions, including those that cause food to spoil. When food is stored at room temperature, the chemical reactions that lead to spoilage occur faster because the molecules in the food are moving faster, leading to an increase in the reaction rate. However, when food is placed in a refrigerator, the lower temperature slows down the movement of molecules, reducing the reaction rate and thus slowing down the spoilage process. This is why it is essential to keep perishable food items in the refrigerator to prevent them from spoiling quickly. Additionally, refrigeration can also inhibit the growth of harmful bacteria, as these bacteria thrive in warm and moist environments. In summary, by controlling the temperature, refrigeration can prevent the kinetics of chemical reactions that lead to food spoilage, and therefore prolong the shelf life of perishable foods.
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if something has chlorine in it, is it more likely an acid or a base?
If something has chlorine in it, is it more likely a base which is explained in the below section.
In chemistry, a substance that may be given hydrogen ions in water and may neutralize an acid. Bases experience soapy or slippery at the pores and skin and they could flip positive dyes blue. An instance of a base is sodium hydroxide. Basicity is measured on a scale referred to as the pH scale. Chlorine is a sturdy base. Therefore, in a low alkalinity system, be cautious of pH adjustments with chlorination. n chemistry, a base is a chemical species that donates electrons, accepts protons, or releases hydroxide (OH-) ions in aqueous solution.
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if given an equation like this:
A solution is made by titrating 9.00 mmol (millimoles) of HA and 2.00 mmol of the strong base. What is the resulting pH?
how do you solve it?
The pH of the solution is 9.46, which is calculated in the below section.
To calculate the pH, the equation which represents an acid-base or a buffer solution is represented below is used.
pH = pKₐ + log([A⁻]/[HA])
One way to determine the pH of a buffer is by using the Henderson–Hasselbalch equation, which is
pH = pKₐ + log([A⁻]/[HA])
= 5.25 + log (2/7)
= 4.70
Concentration of salt = 9 x (1000 / 51)
= 0.176 M
To calculate the pH-
pH = 7 + 1/2 (pKa + log c)
= 7 + 1/2 (5.125 + log (0.176)
= 9.24.
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How does first ionization energy tend to vary within groups and across periods?
The first ionization energy generally increases across periods and decreases down groups.
First ionization energy is the energy required to remove an electron from a neutral atom in the gaseous state. Across a period, the first ionization energy generally increases due to the increasing nuclear charge and decreasing atomic radius. The increased nuclear charge attracts the outermost electrons more strongly, making them more difficult to remove. Conversely, down a group, the first ionization energy generally decreases due to the increasing atomic radius and shielding effect. The larger atomic radius and shielding effect make it easier to remove an electron as the outermost electrons are further from the nucleus and are shielded from the attractive force of the nucleus by inner electrons. However, there are some exceptions to these trends due to factors such as electron configuration and subshell stability.
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Functionally, proteins are a. Long chain carboxylic acids b. Polymeric glycols c. Poly amines
d. Long chain fatty acids e. Polymeric peptides
Answer: e. Polymeric peptides. Functionally, proteins are polymeric peptides made up of amino acid monomers, which are linked together by peptide bonds.
What is peptides?Peptides are short chains of amino acids that are connected by peptide bonds. They are the building blocks for proteins, which consist of a longer chain of amino acids. Peptides are involved in a wide variety of biological processes, from cell signaling to regulating hormones in the body.
Proteins are important components of all living cells and play a variety of roles in physiological processes, such as providing structure, catalyzing metabolic reactions, and responding to stimuli. Proteins are also essential components of the human diet, as they provide essential amino acids that cannot be synthesized by the body.
Therefore the correct option is E.
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to a 25.00 ml volumetric flask, a lab technician adds a 0.125 g sample of a weak monoprotic acid, ha , and dilutes to the mark with distilled water. the technician then titrates this weak acid solution with 0.0977 m koh . she reaches the endpoint after adding 43.01 ml of the koh solution. determine the number of moles of the weak acid in the solution.
To determine the number of moles of the weak acid in the solution, we first need to calculate the molarity of the weak acid solution. Molarity (M) = moles of solute / volume of solution (in L)
First, we need to calculate the number of moles of KOH used in the titration:
moles of KOH = molarity of KOH x volume of KOH used (in L)
moles of KOH = 0.0977 M x 0.04301 L = 0.004203 moles
Since the weak acid is monoprotic, one mole of acid reacts with one mole of base. Therefore, the number of moles of the weak acid in the solution is also equal to 0.004203 moles.
Now we can calculate the molarity of the weak acid solution:
Molarity of weak acid = moles of weak acid / volume of solution (in L)
Volume of solution = 25.00 mL = 0.02500 L
Molarity of weak acid = 0.004203 moles / 0.02500 L = 0.1681 M
Therefore, the number of moles of the weak acid in the solution is 0.004203 moles, and the molarity of the weak acid solution is 0.1681 M.
To determine the number of moles of the weak acid in the solution.
First, we need to calculate the number of moles of KOH used in the titration. We can do this using the formula: moles = molarity × volume. In this case, the molarity is 0.0977 M, and the volume is 43.01 mL (converted to liters: 0.04301 L).
moles of KOH = (0.0977 mol/L) × (0.04301 L) = 0.004201 moles
Since the reaction between a monoprotic acid (HA) and KOH is 1:1, the number of moles of the weak acid is equal to the number of moles of KOH used in the titration.
Therefore, there are 0.004201 moles of the weak acid (HA) in the solution.
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Assuming the temperature of a gas in a closed system is constant. If the volume is increased, how can the system adjust to the change?
If the temperature of a gas in a closed system is constant and the volume is increased, the system will adjust by decreasing the pressure. This is known as Boyle's Law, which states that the pressure of a gas is inversely proportional to its volume at a constant temperature.
If the temperature of a gas in a closed system is constant and the volume is increased, the system will adjust by decreasing the pressure. This is known as Boyle's Law, which states that the pressure of a gas is inversely proportional to its volume at a constant temperature. When the volume of a gas is increased, the gas particles have more space to move around, which results in fewer collisions with the walls of the container. This decrease in collisions results in a decrease in pressure. Therefore, the system will adjust to the increase in volume by decreasing the pressure to maintain a constant temperature.
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a sample of a crude grade of koh is sent to the lab to be tested for koh content. a 4.005 g sample is dissolved and diluted to 200.00 ml with water. a 25.00 ml sample of the solution is titrated with a 0.4388 m hcl solution and requires 19.93 ml to reach the equivalence point. how many moles of koh were in the 4.005 g sample? what mass of koh is this? what is the percent koh in the crude material?
Therefore, the 4.005 g sample of crude KOH contains 0.491 g (or 491 mg) of KOH, which is equivalent to 12.26% of the sample's total mass.
First, we need to calculate the number of moles of HCl used in the titration:
moles HCl = Molarity x Volume (in liters)
moles HCl = 0.4388 mol/L x 0.01993 L
moles HCl = 0.00875 mol
Since KOH and HCl react in a 1:1 ratio, the number of moles of KOH in the sample is also 0.00875 mol.
Next, we can use the mass of the sample and the number of moles of KOH to calculate the mass percent of KOH in the crude material:
mass KOH = moles KOH x molar mass KOH
mass KOH = 0.00875 mol x 56.11 g/mol
mass KOH = 0.491 g
mass percent KOH = (mass KOH / mass of sample) x 100%
mass percent KOH = (0.491 g / 4.005 g) x 100%
mass percent KOH = 12.26%
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in the laboratory you dissolve 17.8 g of aluminum iodide in a volumetric flask and add water to a total volume of 250 ml. what is the molarity of the solution? m. what is the concentration of the aluminum cation? m. what is the concentration of the iodide anion? m.
The molarity of the aluminum iodide solution is 0.1812 M, the concentration of the aluminum cation is 0.1812 M, and the concentration of the iodide anion is 0.5436 M.
To determine the molarity of the solution, we first need to calculate the number of moles of aluminum iodide present in the solution. We can use the formula:
moles = mass / molar mass
The molar mass of aluminum iodide (AlI3) is the sum of the atomic masses of aluminum and three iodine atoms:
molar mass = (1 x atomic mass of Al) + (3 x atomic mass of I)
molar mass = (1 x 26.98 g/mol) + (3 x 126.90 g/mol)
molar mass = 392.68 g/mol
So, the number of moles of aluminum iodide can be calculated as:
moles = 17.8 g / 392.68 g/mol
moles = 0.0453 mol
Next, we need to calculate the molarity of the solution. Molarity is defined as the number of moles of solute per liter of solution. Since we have a total volume of 250 ml, we need to convert this to liters by dividing by 1000:
volume = 250 ml / 1000 ml/L
volume = 0.250 L
Now we can calculate the molarity:
molarity = moles / volume
molarity = 0.0453 mol / 0.250 L
molarity = 0.1812 M
Therefore, the molarity of the solution is 0.1812 M.
To determine the concentration of the aluminum cation, we need to recognize that each molecule of aluminum iodide (AlI3) contains one aluminum cation (Al3+) and three iodide anions (I-). Since we know the molarity of the aluminum iodide solution, we can assume that the concentration of the aluminum cation is the same as the molarity of the solution, since each molecule of aluminum iodide contributes one aluminum cation to the solution. Therefore, the concentration of the aluminum cation is also 0.1812 M.
To determine the concentration of the iodide anion, we need to recognize that each molecule of aluminum iodide (AlI3) contains three iodide anions (I-). Since we know the molarity of the aluminum iodide solution, we can assume that the concentration of the iodide anion is three times the molarity of the solution, since each molecule of aluminum iodide contributes three iodide anions to the solution. Therefore, the concentration of the iodide anion is:
concentration = molarity x number of ions
concentration = 0.1812 M x 3
concentration = 0.5436 M
Therefore, the concentration of the iodide anion is 0.5436 M.
In summary, the molarity of the aluminum iodide solution is 0.1812 M, the concentration of the aluminum cation is 0.1812 M, and the concentration of the iodide anion is 0.5436 M.
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a 50 ml graduated cylinder contains 25.1 ml of water. a 145.8820 g piece of osmium is placed in the graduated cylinder and the water level rises to 31.6 ml. what is the density of the piece of osmium?
The density of the osmium is 22.59 g/mL.
To calculate the density of the osmium, we need to use the formula:
Density = Mass / Volume
First, we need to calculate the volume of the osmium that was added to the graduated cylinder. We can do this by subtracting the initial volume of the water from the final volume of the water:
Volume of osmium = Final volume - Initial volume
Volume of osmium = 31.6 mL - 25.1 mL
Volume of osmium = 6.5 mL
Next, we need to calculate the mass of the osmium:
Mass of osmium = 145.8820 g
Now we can use the formula to calculate the density:
Density = Mass / Volume
Density = 145.8820 g / 6.5 mL
Density = 22.59 g/mL
The density of the osmium is 22.59 g/mL.
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If most drivers are _____________ in their demand for driving, then as cars become more fuel-efficient ______________ greenhouse gases will be emitted.
If most drivers are effective in their demand for driving, then as cars become more fuel-efficient less greenhouse gases will be emitted.
A traditional passenger car emits approximately 4.6 metric lots of carbon dioxide in step with year. This assumes the common gas car on the street nowadays has a gasoline economic system of approximately 22.zero miles in step with gallon and drives round 11,500 miles in step with year. Every gallon of gas burned creates approximately 8,887 grams of CO2. The major greenhouse gases whose concentrations are growing are carbon dioxide, methane, nitrous oxide, hydrochlorofluorocarbons (HCFCs), hydrofluorocarbons (HFCs) and ozone withinside the decrease atmosphere.
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Given: 235 g water; 25 degree C Initial Temp; 100 degree final temp
Find Amount of Heat needed (q)
The amount of heat needed to raise the temperature of 235 g of water from 25°C to 100°C is 49,610 Joules.
When heating or cooling a substance, the amount of heat transferred can be calculated using the formula q = mcΔT, where q is the amount of heat transferred, m is the mass of the substance, c is the specific heat capacity of the substance, and ΔT is the change in temperature. In this case, we are given the mass of water (m = 235 g), the initial temperature (T1 = 25°C), and the final temperature (T2 = 100°C). The specific heat capacity of water is 4.184 J/g°C. Plugging these values into the formula, we get:
q = (235 g) x (4.184 J/g°C) x (100°C - 25°C) = 49,610 Joules
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