Classify each amino acid by the chemical properties of its side chain (R group) at pH 7·Select the amino acid that fits best in each category. Each amino acid will be used only once. 1. This amino acid has a positively charged R group: Select answer 2. This amino acid has a negatively charged R group! Select answer 3. This amino acid has a neutral polar R group: Sect answer 4 This amino acid has a nonpolar aliphatic R tryptophan aspartate valine arginine Select answer 5. This amino acid has an aromatic R group:

Answers

Answer 1

Answer:

. 1. This amino acid has a positively charged R group: ARGININE

2. This amino acid has a negatively charged R group: ASPARTATE

3. This amino acid has a neutral polar R group: NONE

4. This amino acid has a nonpolar aliphatic R: VALINE

5. This amino acid has an aromatic R group: TRYTOPHAN

Explanation:

1) Arginine contains an extra amino group bearing a positive charge, in its chain which imparts basic properties to it

2) Aspartate contains an extra carboxyl group with a dissociable protron. Once the Protron is dissociated, it carries an extra negative charge in its side chain (R)

3) NONE of the amino acids given belong to this group because amino acids with neutral polar R groups contain functional groups that form hydrogen bonds with water. But, this is not the case with tryptophan aspartate valine or arginine

4) Valine has a R group that is hydrocarbon in nature and thus hydrophobic.

5) Trytophan has a benzene ring in its side chain

Answer 2
Final answer:

Amino acids are classified by the properties of their R groups at pH 7 to be arginine (positively charged), aspartate (negatively charged), valine (neutral polar and nonpolar aliphatic) and tryptophan (aromatic).

Explanation:

The chemical properties of an amino acid's side chain, or R group can be identified with their characteristics at pH 7. Here are each of the amino acids classified by the properties of their R groups at pH 7:

The amino acid with a positively charged R group is arginine. The amino acid with a negatively charged R group is aspartate. Valine has a neutral polar R group. The amino acid with a nonpolar aliphatic R group is valine . The amino acid with an aromatic R group is tryptophan.

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Related Questions

A metal crystallizes in a body-centered cubic unit cell. The radius of one atom = 2.30 x 10 -8 cm. The density of the metal is 0.867 g/cm^3 . What is molar mass of metal?

Answers

Answer:

25.41 g/mol is molar mass of metal.

Explanation:

Number of atom in BCC unit cell = Z = 2

Density of metal = [tex]0.867 g/cm^3[/tex]

Edge length of cubic unit cell= a = ?

Radius  of the atom of metal = r = [tex]2.30\times 10^{-8} cm[/tex]

[tex]a=2\times r=2\times 2.30\times 10^{-8} cm=4.60\times 10^{-8} cm[/tex]

Atomic mass of metal =M

Formula used :  

[tex]\rho=\frac{Z\times M}{N_{A}\times a^{3}}[/tex]

where,

[tex]\rho[/tex] = density

Z = number of atom in unit cell

M = atomic mass

[tex](N_{A})[/tex] = Avogadro's number  

a = edge length of unit cell

On substituting all the given values , we will get the value of 'a'.

[tex]0.867 g/cm^3=\frac{2\times M}{6.022\times 10^{23} mol^{-1}\times (4.60\times 10^{-8} cm)^{3}}[/tex]

[tex]M = 25.41 g/mol[/tex]

25.41 g/mol is molar mass of metal.

Final answer:

To calculate the molar mass of a metal with a body-centered cubic unit cell, you need to calculate the edge length of the unit cell. Once you have the edge length and the density of the metal, you can determine the molar mass.

Explanation:

The molar mass of a metal can be calculated using the formula:

Molar mass = (density × Avogadro's number) / (volume of one atom)

To calculate the volume of one atom, we need to know the type of unit cell and the edge length of the unit cell. Given that the metal crystallizes in a body-centered cubic unit cell, the edge length can be calculated using the formula:

Edge length = 4R / sqrt(3),

where R = radius of the atom.

Using the given radius of the atom (2.30 x 10-8 cm), we can calculate the edge length of the unit cell. With the edge length and the density of the metal (0.867 g/cm3), we can then calculate the molar mass of the metal.

Reduced molecules become _____ upon donating an electron in a redox reaction. Choose one: A. saturated B. oxidized C. bound to oxygen D. reduced

Answers

Answer: Option B. oxidized

Explanation:

Determine the speed of sound at 20 oC in (a) air, (b) helium, and (c) natural gas (methane). Express your answer in m/s.

Answers

Final answer:

The speed of sound in different mediums varies based on their properties. In air at 20 oC, the speed of sound is approximately 343 m/s. In helium, it is approximately 972 m/s, and in natural gas (methane), it is approximately 454 m/s.

Explanation:

The speed of sound in a medium depends on the properties of that medium. In general, sound travels faster in materials with higher densities and elastic properties. The equation to calculate the speed of sound in a medium is given by v = sqrt(E/p), where v is the speed of sound, E is the elastic modulus, and p is the density of the medium.

(a) In air at 20 oC, the speed of sound is approximately 343 m/s.

(b) In helium at 20 oC, the speed of sound is approximately 972 m/s.

(c) In natural gas (methane) at 20 oC, the speed of sound is approximately 454 m/s.

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Final answer:

The speed of sound in air at 20.0°C is 343 m/s. For other gases like helium and methane at the same temperature, their speeds of sound are higher due to their lower molecular masses. Helium has a much higher speed of sound, while methane's speed of sound is closer to but slightly higher than air.

Explanation:

The speed of sound in air at a given temperature can be calculated using the following formula, where °C represents degrees Celsius:

v = 331 m/s + (0.6 m/s/°C) × temperature

For air at 20.0°C, the speed of sound is:

v = 331 m/s + (0.6 m/s/°C) × 20.0°C

v = 331 m/s + 12 m/s

v = 343 m/s

For other gases like helium and methane at the same temperature, their speeds of sound are higher due to their lower molecular masses compared to air.

The speed of sound in helium and methane can be determined from tables or calculated using specific formulas accounting for the properties of these gases.

Helium: 972 m/sNatural Gas (Methane): 443 m/s

Rank the ions in each set in order of decreasing size, and explain your ranking:
(a) Se²⁻, S²⁻, O²⁻ (b) Te²⁻, Cs⁺, I⁻ (c) Sr²⁺, Ba²⁺, Cs⁺

Answers

Final answer:

The size of an ion is determined by the effective nuclear charge and the number of electrons in the ion. In isoelectronic ions, the size decreases with increasing effective nuclear charge. In ions with the same number of electrons, the size increases with increasing atomic number.

Explanation:

(a) In this set, the ions are all isoelectronic, meaning they have the same number of electrons. Therefore, their sizes are determined by the effective nuclear charge. The effective nuclear charge increases from Se²⁻ to S²⁻ to O²⁻ because the number of protons in the nucleus increases. So, the sizes of the ions decrease from Se²⁻ > S²⁻ > O²⁻.

(b) In this set, the ions have different numbers of electrons. The size of an ion generally increases with the addition of electrons. So, the sizes of the ions decrease from I⁻ > Te²⁻ > Cs⁺.

(c) In this set, the ions have the same number of electrons but different atomic numbers. The size of an ion generally increases with increasing atomic number. So, the sizes of the ions decrease from Cs⁺ > Sr²⁺ > Ba²⁺.

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Final answer:

The size of an ion is determined by the number of electrons surrounding it. In each set, the size of the ions decreases as you move along the set. The order of decreasing size for each set is explained based on the position of the elements on the periodic table.

Explanation:

(a) Se²⁻, S²⁻, O²⁻: The size of an ion is determined by the number of electrons surrounding it. As you move down a group on the periodic table, the size of the ions generally increases. Therefore, the order of decreasing size is O²⁻, S²⁻, Se²⁻.

(b) Te²⁻, Cs⁺, I⁻: In this set, the ionic size increases from Te²⁻ to I⁻. This is due to the decrease in the number of protons in the nucleus as you move down the periodic table. Cs⁺ is significantly smaller than Te²⁻ and I⁻ due to the removal of an electron.

(c) Sr²⁺, Ba²⁺, Cs⁺: Again, the size of the ions increases as you move down the periodic table. Therefore, the order of decreasing size is Cs⁺, Sr²⁺, Ba²⁺.

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acetone and ethanol Choose one or more: A. London dispersion B. dipole–dipole C. hydrogen bonding D. ion-induced dipole

Answers

Explanation:

The weak intermolecular forces which can arise either between nucleus and electrons or between electron-electron are known as dispersion forces. These forces are also known as London dispersion forces and these are temporary in nature.

Dipole-dipole interactions are defined as the interactions that occur when partial positive charge on an atom is attracted by partial negative charge on another atom.

When a polar molecules produces a dipole on a non-polar molecule through distribution of electrons then it is known as dipole-induced forces.

Hydrogen bonding is defined as a bonding which exists between a hydrogen atom and an electronegative atom like O, N and F.

Chemical formula of acetone is [tex]CH_{3}COCH_{3}[/tex]. Due to the presence of oxygen atom there will be partial positive charge on carbon and a partial negative charge on oxygen atom. Hence, dipole-dipole forces will exist in a molecule of acetone.

Whereas hydrogen bonding will exist in a molecule of ethanol ([tex]CH_{3}CH_{2}OH[/tex]). Since, hydrogen atom is attached with electronegative oxygen atom.

Whereas London dispersion forces will also exist in both acetone and ethanol molecule.

Which of the following type of protons are chemically equivalent? A) homotopic B) enantiotopic C) diastereotopic A & B B & C

Answers

Answer:

A) homotopic and B) enantiotopic

Explanation:

Protons chemically equivalent are those that have the same chemical shift, also if they are interchangeable by some symmetry operation or by a rapid chemical process.

The existence of symmetry axes, Cn, that relate to the protons results in the protons being homotopic, that is chemically equivalent in both chiral and aquiral environments.

The existence of a plane of symmetry, σ, makes the protons related by it, are enantiotopic and these protons will only be equivalent in an aquiral medium; if the medium is chiral both protons will be chemically NOT equivalent. The existence of a center of symmetry, i, in the molecule makes the related protons through it enantiotopic and therefore chemically only in the aquiral medium.

Diastereotopic protons cannot be interconverted by any symmetry operation and they are different, with different chemical displacement.

Final answer:

Homotopic and enantiotopic protons are chemically equivalent, while diastereotopic protons are not.

option A and B are chemically equivalent

Explanation:

In organic chemistry, protons in a molecule can be classified into different types based on their position and chemical environment. Among the given options, the type of protons that are chemically equivalent are homotopic and enantiotopic.

Homotopic protons are protons that have an identical chemical environment and can be interchanged with each other without affecting the molecule's structure or properties. Enantiotopic protons are protons that have an identical chemical environment but their interchange leads to the formation of a stereoisomer.

Diastereotopic protons, on the other hand, have different chemical environments and are not chemically equivalent.

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Define each of the following wave phenomena, and give an example of where each occurs: (a) refraction; (b) diffraction; (c) dispersion; (d) interference.

Answers

Explanation:

Refraction is the phenomenon of change in speed of light when the light when it passes from the medium of one optical density to a medium of another optical density. The light rays also show a bending when passing through the interface of such medium.Diffraction is the process of spreading of the light or any system of wave after passing through a narrow gap of the order of wavelength of the wave.Dispersion is the phenomenon of acquiring the velocity corresponding to its wavelength by a wave.Interference of waves is the phenomenon of interaction of of two waves when they meet and superimpose on one another to give a wave of resultant properties of both the source waves.

Rank the following binary acids according to increasing acid strength, based on the factors identified in part 1. For compounds with more than one ionizable H, consider the loss of a single H+ only. NH3 , HCl , PH3 , H2S , HI

Answers

Final answer:

Binary acids can be ranked based on the electronegativity and size of the non-metal in the acid.

Explanation:

The strength of binary acids can be determined by looking at the electronegativity and size of the non-metal in the acid. Higher electronegativity and smaller size result in stronger acids. From the given compounds, we can rank them as follows:

NH3PH3AsH3H2SHCl

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Paraffin oil has a boiling point greater than 370°C. What was the purpose of adding paraffin to the reaction flask when cracking dicyclopentadiene? (Select all that apply.)
1) Paraffin serves as the hydrogen-donor in the reduction of dicyclopentadiene to cyclopentadiene.
2) Paraffin prevents the formation of free radicals that interfere with the cracking process.
3) Paraffin as a solvent results in more homogeneous heat distribution in the reaction vessel.
4) Paraffin is inflammable, which helps control the risk of fire during the cracking process.
5) Paraffin induces the formation of free radicals that are needed for the cracking process to proceed.
6) Paraffin prevents the reaction vessel from running dry.

Answers

Answer:

3) Paraffin as a solvent results in more homogeneous heat distribution in the reaction vessel.

Explanation:

First off, cyclopentadiene is obtained by “cracking” dicyclopentadiene. The cracking is carried out at 300 °C.

How do we Know if the reaction mixture have reached 300°C for cracking to occur? You probably thinking we use a thermometer..

The temperature of the reaction should be about 300 degrees and a normal thermometer would explode because it would reach past the heating limit.

So what do we then use?

We use a solvent whose boiling point is above the temperature needed for the reaction to occur and that's where paraffin comes into play. The moment the solvent begins to boil, we are certain that the temperature needed for the reaction has been reached.

The correct answer is option 3.

Final answer:

Paraffin is added to the reaction flask when cracking dicyclopentadiene mainly as a solvent to ensure homogeneous heat distribution and to prevent the reaction vessel from running dry due to its high boiling point.

Explanation:

The purpose of adding paraffin to the reaction flask when cracking dicyclopentadiene can be explained as follows:

Paraffin acts as a solvent providing a more homogeneous heat distribution in the reaction vessel (Option 3). This uniform heat distribution is crucial for the reaction to proceed efficiently and safely.

Given that paraffin oil has a high boiling point, it helps in preventing the reaction vessel from running dry by maintaining an adequate volume of liquid during the high-temperature process (Option 6).

While paraffin oil itself is inflammable, contributing to safer laboratory conditions, this is not directly related to its role in cracking dicyclopentadiene. Therefore, the fourth claim is factually correct about paraffin but irrelevant in this context.

1. 0.16 m Pb(CH3COO)2 A. Highest boiling point 2. 0.17 m NiBr2 B. Second highest boiling point 3. 8.8×10-2 m Al2(SO4)3 C. Third highest boiling point 4. 0.53 m Urea(nonelectrolyte) D. Lowest boiling point

Answers

Explanation:

[tex]\Delta T_b=T_b-T[/tex]

[tex]\Delta T_b=K_b\times m[/tex]

[tex]Delta T_b=iK_b\times \frac{\text{Mass of solute}}{\text{Molar mass of solute}\times \text{Mass of solvent in Kg}}[/tex]

where,

[tex]\Delta T_f[/tex] =Elevation in boiling point

[tex]K_b[/tex] = boiling point constant of solvent

i =  van't Hoff factor

m = molality

As we can see that molality is directly proportional ti elevation in boiling point, so higher the molality of the solution at more high temperature it will boil.

1) 0.16 m [tex]Pb(CH_3COO)_2[/tex]

i = 3

[tex]\Delta T_b=3K_b\times 0.16 m=K_b\times 0.48 m[/tex]

Third highest boiling point

2) 0.17 m [tex]NiBr_2[/tex]

i = 3

[tex]\Delta T_b=3K_b\times 0.17 m=K_b\times 0.51 m[/tex]

Second highest boiling point  

3) [tex]8.8\times 10^{-2} m[/tex] of  [tex]Al_2(SO_4)_3[/tex]

i = 5

[tex]\Delta T_b=5\times K_b\times 8.8\times 10^{-2} m=K_b\times 0.44 m[/tex]

Lowest boiling point

4) 0.53 m Urea

i = 1

[tex]\Delta T_b=1\times K_b\times 0.53 m =K_b\times 0.53 m[/tex]

Highest boiling point

Final answer:

The boiling point of a solution depends on the concentration and nature of the solute. Electrolytes increase the boiling point, while nonelectrolytes do not. In this case, the solutions with Pb(CH3COO)2, NiBr2, and Al2(SO4)3 have higher boiling points than the solution with urea.

Explanation:

The boiling point of a solution is influenced by the concentration and nature of the solute. In this case, we are given four solutions with different concentrations and solutes. To determine the boiling point, we need to consider the number of particles the solute breaks into when it dissolves. Electrolytes like Pb(CH3COO)2, NiBr2, and Al2(SO4)3 break into ions and increase the boiling point while urea, a nonelectrolyte, does not break into ions and has a lower boiling point.

0.16 m Pb(CH3COO)2 has the highest boiling point because it is an electrolyte that breaks into one Pb2+ ion and two CH3COO- ions.0.17 m NiBr2 has the second highest boiling point because it is an electrolyte that breaks into two Ni2+ ions and four Br- ions.8.8×10-2 m Al2(SO4)3 has the third highest boiling point because it is an electrolyte that breaks into two Al3+ ions and three SO42- ions.0.53 m Urea (nonelectrolyte) has the lowest boiling point because it does not break into ions and does not increase the boiling point.

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In basic enzyme kinetics, a large Km indicates that the substrate binds A. Permanently B. Transiently C. Covalently D. with low specificity E. Weakly

Answers

Answer: D

Explanation:

Km value is a signature of the enzyme. It is the characteristic feature of a particular enzymes for a specific substrate. Km denotes the affinity of the enzyme for substrate. The lesser the numerical value of Km, the affinity of the enzyme for the substrate is more.

In the velocity x substrate graph in a fixed quantity if enzyme. As substrate concentration is increase, the velocity is also increasing at the initial phase but the curve fatten afterwards. This is because as more substrate is added, all enzymes molecules become saturated. Further increase in substrate cannot make any effect in the reaction velocity.

The maximum velocity is called Vmax. Km is the concentration of substrate that Vmax is half.

The larger the numerical value of Km, the lesser the enzyme binds the substrate

Final answer:

In basic enzyme kinetics, a large Km value signifies that the substrate binds weakly to the enzyme, indicating a lower affinity. A high Km necessitates a higher substrate concentration for effective enzyme activity, making it a critical parameter in enzymology and biotechnology.

Explanation:

In basic enzyme kinetics, a large Km indicates that the substrate binds weakly. The Km value, or the Michaelis constant, provides a measure of the affinity of the enzyme for its substrate. A high Km value suggests that a higher concentration of the substrate is required to achieve half of the maximum rate of reaction (Vmax), indicating a lower affinity of the enzyme for the substrate. Conversely, a low Km value signifies a high affinity, meaning the enzyme can easily bind the substrate even at low concentrations.

Understanding the implications of Km values is essential in enzymology and for designing better enzymes through biotechnology. A larger Km value generally indicates weaker enzyme-substrate interactions, suggesting that the enzyme requires a higher concentration of substrate to be effective. This parameter is crucial in the study of enzyme kinetics, drug design, and understanding metabolic pathways.

What is the partial pressure of carbon dioxide, in atm, in a container that contains 3.63 mol of oxygen, 1.49 mol of nitrogen, and 6.16 mol of carbon dioxide when the total pressure is 871 mmHg? (enter your answer with 3 significant figures and no units)

Answers

Answer: The partial pressure of carbon dioxide is 476.

Explanation:

We are given:

Moles of oxygen gas = 3.63 moles

Moles of nitrogen gas = 1.49 moles

Moles of carbon dioxide gas = 6.16 moles

Total number of moles = [3.63 + 1.49 + 6.16] = 11.28 moles

Mole fraction of a substance is given by:

[tex]\chi_A=\frac{n_A}{n_A+n_B}[/tex]

Mole fraction of carbon dioxide, [tex]\chi_{CO_2}=\frac{n_{CO_2}}{n_T}[/tex]

So, [tex]\chi_{CO_2}=\frac{6.16}{11.28}=0.546[/tex]

To calculate the partial pressure of carbon dioxide, we use the equation given by Raoult's law, which is:

[tex]p_{CO_2}=p_T\times \chi_{CO_2}[/tex]

where,

[tex]p_A[/tex] = partial pressure of carbon dioxide = ?

[tex]p_T[/tex] = total pressure = 871 mmHg

[tex]\chi_{CO_2}[/tex] = mole fraction of carbon dioxide = 0.546

Putting values in above equation, we get:

[tex]p_{CO_2}=871mmHg\times 0.546\\\\\chi_{CO_2}=475.6mmHg=476.mmHg[/tex]

Hence, the partial pressure of carbon dioxide is 476.

Does the reaction of a main-group nonmetal oxide in water produce an acidic or a basic solution? Write a balanced equation for the reaction of a Group 6A(16) nonmetal oxide with water.

Answers

Answer:

They form acidic solutions

SO2(g) + H2O(l) --> H2SO3(aq)

SO3(g) + H2O(l) --> H2SO4(aq)

Explanation:

Group 6 elements are elements on the periodic table with 6 atoms on their valence shell. Metallic properties increases down the group from oxygen through polonium. Examples are oxygen, polonium, sulphur etc.

Group 6 nonmetal oxides react with water to form acidic solutions, this is because the oxides of nonmetallic elements are basic in nature.

Sulphur exhibits a wide range of oxidation states ranging from +2 to +6. So its oxides are SO2 and SO3.

Example:

SO2(g) + H2O(l) --> H2SO3(aq)

SO3(g) + H2O(l) --> H2SO4(aq)

State the exclusion principle. What does it imply about the number and spin of electrons in an atomic orbital?

Answers

Answer:

The Pauli exclusion principle was developed by Austrian physicist Ernst Pauli in 1925.  This principle of quantum says that two electrons in an atom cannot have all four equal quantum numbers .

Explanation:

This fact would explain that electrons are dispersed in layers or levels around the nucleus of the atom and therefore, atoms that have more electrons occupy more space, because the number of layers of which the atom consists increases. The maximum number of electrons that a layer or level can have is 2n ^ 2.

In order to fully describe the electron within the hydrogen atom, we need to enter a fourth quantum number to those already known. Said fourth quantum number is represented by the letters ms, and is known as the quantum number of spin, which is closely related to the magnetic properties of electrons. The quantum number ms can only have two different values, +1/2 or -1/2. To electrons whose values ​​of ms are equal, it is said that they have what is known as parallel spins, however, if the values ​​that present more are different it is said that they have opposite spins or also called antiparallels.

In order to describe an orbital, three quantum numbers (the numbers n, l and ml) are needed, at the same time that an electron that is in an atom is given by a combination of four quantum numbers, the main three plus the number ms . Pauli's exclusion principle tells us that in an atom it is impossible for two electrons to coexist with the four identical quantum numbers. According to this principle, in an atomic type orbital, which is determined by the quantum numbers n, l, and ml, there can only be two electrons: one of them with a positive spin +1/2 and another with its opposite spin negative -1/2.

Then we say that each of the types of orbitals can only contain 2 electrons at most, which must necessarily have opposite spins. These electrons will have all their equal quantum numbers, and will only differ in the quantum number ms (spin).

Explanation:

Technically the exclusion principle says that electrons with the same orbital designations must have different spin. ... For a given level (n), the sublevels in H have the same energy, whereas in many-electron, species, the sublevels are staggered in energy.

What numbers should be dialed into the p-10 display if a volume of 3.7 l is to be measured?

Answers

Following numbers should be dialed:

Tens: 3 (30 µL)Ones: 7 (7 µL)Tenths: 0 (0.1 µ)

The display of the P-10 pipette consists of three digits: tens, ones, and tenths. These digits represent different places in the measurement scale. Here's how you would set it for a volume of 3.7 µL:

Tens Section (Leftmost Digit - Tens Place):

Dial in the digit 3. This represents 3 tens of microliters (µL). Essentially, it sets the pipette to 30 µL.

Ones Section (Middle Digit - Ones Place):

Dial in the digit 7. This represents 7 ones of microliters (µL).

Tenths Section (Rightmost Digit - Tenths Place):

Dial in the digit 0. This represents 0.1 µL. However, for your measurement of 3.7 µL, you don't need to adjust this digit, as you don't have any tenths to add.

Putting it all together:

Tens: 3 (30 µL)

Ones: 7 (7 µL)

Tenths: 0 (0.1 µL, but not needed in this case)

So, with the tens set to 3 and the ones set to 7, you have dialed in a total volume of 37 µL.

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Final answer:

For measuring a volume of 3.7 L with a micropipette, it’s not feasible using a P-10 pipettor due to its limited range. If the intended volume is 3.7 µL, dial 037 into the P-10 display. It's essential to use the pipettor within the correct volume range to avoid damage.

Explanation:

To measure a volume of 3.7 L (3700 mL) using a P-10 micropipette, which has a maximum volume of 10 µL (0.01 mL), would not be possible because the micropipette's volume range is much smaller than the volume you need to measure. However, if you meant to measure 3.7 µL, the numbers to dial on the P-10 display would be 037, indicating that you need to measure 3.7 µL. You should rotate the volume adjustment knob until the display shows these three digits. It is crucial to operate within the pipettor's specified volume range for accuracy and to prevent damage to the equipment.

Caution: Never turn the indicator dial beyond the micropipette's volume limits. To measure volumes accurately with a micropipette, ensure you are using the correct model for the desired volume range and adjust the dial accordingly. Using the P10 model, you can measure volumes as small as 1 µL up to 10 µL, which is its upper volume limit. Always consult the pipettor's manual or your lab guidelines when unsure about how to correctly set the volume on the micropipette.

If 39.0 g of C6H6 reacts with excess chlorine and produces 30.0 g of C6H5Cl in the reaction C6H6 + Cl2 → C6H5Cl + HCl , what is the percent yield of C6H5Cl?

Answers

Answer:

53.4 % is the percent yield

Explanation:

This is the reaction:

C₆H₆ + Cl₂ → C₆H₅Cl + HCl

First of all we need to know the moles of benzene we used

39 g . 1 mol / 78 g = 0.5 moles

Ratio is 1:1 so 1 mol of benzene produces 1 mol of chloride

0.5 moles of chloride were produced by 0.5 moles of benzene

We must calculate the mass of chloride we produced

0.5 mol . 112.45 g / 1 mol = 56.2g

Let's calculate the  percent yield

(Yield produced / Theoretical yield ) . 100

(30 g / 56.2 g) . 100 = 53.4 %

Answer:

53.4%

ut quest

While exploring a coal mine, scientists found plant fossils in the ceiling of the mine which had been preserved by an earthquake. Samples taken from one of the fossils have carbon‑14 activities of 40.0 counts/min. A reference sample of the same size, from a plant alive today, has a carbon‑14 activity of 160.0 counts/min.
If carbon‑14 has a half‑life of 5730 years, what is the age of the plant fossil in years?

Answers

Answer:

11552.45 years

Explanation:

Given that:

Half life = 5730 years

[tex]t_{1/2}=\frac{\ln2}{k}[/tex]

Where, k is rate constant

So,  

[tex]k=\frac{\ln2}{t_{1/2}}[/tex]

[tex]k=\frac{\ln2}{5730}\ years^{-1}[/tex]

The rate constant, k = 0.00012 years⁻¹

Using integrated rate law for first order kinetics as:

[tex][A_t]=[A_0]e^{-kt}[/tex]

Where,  

[tex][A_t][/tex] is the concentration at time t

[tex][A_0][/tex] is the initial concentration

Given that:

The rate constant, k = 0.00012 years⁻¹

Initial concentration [tex][A_0][/tex] = 160.0 counts/min

Final concentration [tex][A_t][/tex] = 40.0 counts/min

Time = ?

Applying in the above equation, we get that:-

[tex]40.0=160.0e^{-0.00012\times t}[/tex]

[tex]e^{-0.00012t}=\frac{1}{4}[/tex]

[tex]-0.00012t=\ln \left(\frac{1}{4}\right)[/tex]

[tex]t=11552.45\ years[/tex]

How many grams of the molecule glucose C6H12O6 would be required to make 1 L of a 0.5 M solution of the molecule?

Answers

Answer:

90g

Explanation:

We need to find the molar mass of C6H12O6. This is done below:

MM of C6H12O6 = (12x6) + (12x1) + (6x16) = 72 + 12 + 96 = 180g/mol

From the question, we obtained:

Volume = 1L

Molarity = 0.5M

Number of mole = Molarity x Volume

Number of mole = 0.5 x 1 = 0.5mol

Mass conc of C6H12O6 = number of mole x MM = 0.5 x 180 = 90g

To make 1 L of a 0.5 M solution of glucose, one would need 90.078 grams of glucose, based on the molecular weight calculation of C6H12O6.

To calculate how many grams of glucose (C6H12O6) are needed to make 1 L of a 0.5 M solution, you first need to calculate the molar mass of glucose. The molar mass can be found by adding up the atomic masses of all the atoms in one molecule of glucose. The atomic masses are approximately carbon (C) 12.01 g/mol, hydrogen (H) 1.008 g/mol, and oxygen (O) 16.00 g/mol. So, the molar mass of C6H12O6 is:

(6 × 12.01) + (12 × 1.008) + (6 ×16.00) = 180.156 g/mol

Next, you use the molarity equation which is:

Molarity (M) = moles of solute / liters of solution

For a 0.5 M solution, you require 0.5 moles of glucose per liter of solution. Using the molar mass calculated earlier, the mass of glucose needed is:

(0.5 moles) ×(180.156 g/mol) = 90.078 g

Therefore, you would need 90.078 g of glucose to make 1 L of a 0.5 M solution of glucose.

A gas contained in a piston cylinder assembly undergoes a process from state 1 to state 2 defined by the following relationship and given properties. Determine the final volume (V2) of the gas.P*V

Answers

Answer:

V2 = 1/4

Explanation: P1 = 1; P2 = 2; V1 = 1/2; V2 = ?

P1*V1 = P2*V2

∴ V2 = P1*V1/P2 = {1 X 1/2}/2 = 1/4

A balloon filled with helium has a volume of 6.9 L. What is the mass, in grams, of helium in the balloon?

Answers

Answer : The mass of helium gas in the balloon is, 1.23 grams.

Explanation : Given,

Volume of helium gas = 6.9 L

First we have to calculate moles of helium gas at STP.

As we know that, 1 mole of substance occupy 22.4 L volume of gas.

As, 22.4 L volume of helium gas present in 1 mole of helium

So, 6.9 L volume of helium gas present in [tex]\frac{6.9L}{22.4L}\times 1mole=0.308mole[/tex] of helium

Now we have to calculate the mass of helium gas.

[tex]\text{Mass of He gas}=\text{Moles of He gas}\times \text{Molar mass of He gas}[/tex]

Molar mass of He gas = 4 g/mol

[tex]\text{Mass of He gas}=0.308mol\times 4g/mol=1.23g[/tex]

Thus, the mass of helium gas in the balloon is, 1.23 grams.

To find the mass of helium in the balloon, we can use the ideal gas law equation to calculate the number of moles of helium, and then convert it to grams using the molar mass. The mass of helium in the balloon is 27.14 grams.

To find the mass of helium in the balloon, we need to know the density of helium. The ideal gas law can be used to calculate the density of a gas. The ideal gas law equation is PV = nRT, where P is the pressure, V is the volume, n is the number of moles, R is the ideal gas constant, and T is the temperature. Rearranging the equation gives us n = PV/RT. We can then use the molar mass of helium (4 g/mol) to convert the number of moles to grams. Since the volume of the balloon and the pressure are given, we can plug in the values and solve for the mass of helium.

Given:
Volume (V) = 6.9 L
Molar mass of helium = 4 g/mol
R = 8.31 J/mol · K

Convert volume to liters: 6.9 LConvert temperature to Kelvin: 273 + 25 = 298 KCalculate number of moles using the ideal gas law equation: n = (V * P) / (R * T)Convert moles to grams using the molar mass of helium: mass = n * molar massSubstitute the values into the equation and solve for the mass of helium

After performing the calculations, the mass of helium in the balloon is 27.14 grams.

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What is the molality of aqueous nitric acid HNO3 (63 g/mol) that has a density of 1.42 g/mL and is 16.7 M? Report your answer to three significant figures. Do not include units.

Answers

Answer:

[HNO₃] = 45.4 m

Explanation:

We need to be organized to solve this:

Solute: HNO₃

Solvent: Water

Solution: Mass of solute + Mass of solvent

Density → For the solution → Solution mass / Solution Volume

M → moles of solute / 1L of solution

Let's use density to determine solution mass

1.42 g/mL = Solution mass / 1000mL → Solution mass = 1420 g

Let's determine the moles of the solute (HNO₃)

Moles . molar mass → 16.7 mol . 63 g/mol = 1052.1 g

Now we have solution mass and solute mass; let's find out solvent mass.

Solvent mass = Solution mass - Solute mass → 1420 g - 1052.1 g = 367.9 g

Let's convert the solvent mass to kg → 367.9 g . 1kg / 1000 g = 0.6379 kg

Molality → Moles of solute / 1kg of solvent → 16.7 mol / 0.6379 kg = 45.4 m

Suggest an explanation for the observations that ethanol, C2H5OH, is completely miscible with water and that ethanethiol, C2H5SH, is soluble only to the extent of 1.5 g per 100 mL of water. ?

Answers

Explanation:

Ethanethiol is an organosulphur compound which had an alkyl group(CnH2n+1) and a -thiol group (-SH). A thiol group like an hydroxyl group has its Oxygen replaced with sulphur.

Ethanethiol shows little association of its -SH group with the water molecules by hydrogen bonding; both with water molecules and among themselves. Hence why they are less soluble in water or slightly soluble in water.

Ethanol is an organic compound which the general formula of CnH2n+1OH. Ethanol is soluble in water because of the reaction of the -OH group with the water molecules to form hydrogen bonds.

Note that as the alkyl chain increases, Solubility decreases. This is because the alkyl chain forms the hydrophobic surface of the molecule due to its non-interaction of the water molecules to form hydrogen bond.

Final answer:

Ethanol is completely miscible with water due to its polar nature and ability to form strong hydrogen bonds with water. However, ethanethiol is only partially soluble because it forms weaker hydrogen bonds with water due to its less polar sulfhydryl group.

Explanation:

The miscibility and solubility of substances depend on the principle that 'like dissolves like'. This means that polar substances dissolve well in other polar substances, while non-polar substances dissolve well in other non-polar substances. Ethanol (C2H5OH) is a polar molecule because it contains a hydroxyl group (-OH), which forms hydrogen bonds with water, another polar substance. This makes ethanol completely miscible with water. On the other hand, ethanethiol (C2H5SH) contains a sulfhydryl group (-SH), which is less polar than the hydroxyl group and forms weaker hydrogen bonds with water. As a result, ethanethiol is only partially soluble in water.

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The balanced equation for the combustion of ethanol is 2C2H5OH(g) + 7O2(g) → 4CO2(g) + 6H2O(g) How many grams of oxygen gas are required to burn 5.54 g of C2H5OH? (write your answer with 3 sig figs and no units)

Answers

Answer: 13.5g of O2

Explanation:

2C2H5OH + 7O2 → 4CO2 + 6H2O

Molar Mass of C2H5OH = (12x2)+5+16+1= 46g/mol

Mass conc. Of C2H5OH =2x46= 92g

Molar Mass of O2 = 32g/mol

Mass conc. Of O2 = 7 x 32 = 224g

From the equation,

92g of C2H5OH required 224g O O2.

Therefore, 5.54g of C2H5OH will require = (5.54x224)/92 = 13.5g of O2

Final answer:

To burn 5.54 g of C2H5OH, 13.4 g of O2 is required.

Explanation:

To determine the grams of oxygen gas required to burn 5.54 g of C2H5OH, we first need to convert the given mass of C2H5OH to moles using its molar mass. The molar mass of C2H5OH is 46.07 g/mol. So, 5.54 g of C2H5OH is equal to 5.54 g / 46.07 g/mol = 0.12 mol of C2H5OH.

According to the balanced equation, the mole ratio between C2H5OH and O2 is 2:7. Therefore, for every 2 moles of C2H5OH, we require 7 moles of O2.

Using this mole ratio, we can calculate the moles of O2 required: 0.12 mol C2H5OH × (7 mol O2 / 2 mol C2H5OH) = 0.42 mol O2.

To convert moles of O2 to grams, we can use its molar mass, which is 32.00 g/mol. Therefore, 0.42 mol O2 × 32.00 g/mol = 13.4 g of O2.

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When electrons move through a series of electron acceptor molecules in cellular respiration ________.

Answers

In cellular respiration, electrons are transferred through the electron transport chain, with oxygen as the final acceptor in aerobic respiration, or alternate acceptors in anaerobic conditions, resulting in ATP production or NAD⁺ regeneration, respectively.

When electrons move through a series of electron acceptor molecules in cellular respiration, they travel along the electron transport chain (ETC), which is a series of chemical reactions that occur within the inner membrane of mitochondria in eukaryotic cells, or on the cell membrane in prokaryotic cells. In aerobic respiration, the final electron acceptor is an oxygen molecule (O₂), leading to the production of water and the generation of ATP through the process of oxidative phosphorylation. If oxygen is not available, the cell may undergo anaerobic respiration or fermentation, utilizing an organic or inorganic molecule as the final electron acceptor and, in the case of fermentation, regenerating NAD⁺ from NADH to permit glycolysis to continue.

An electric current transports 93.0 C of charge in 601 milliseconds. Calculate the size of the electric current. Be sure your answer has the correct unit symbol and the correct number of significant digits.

Answers

Answer:

155 A

Explanation:

Given data

Transported charge (Q): 93.0 CoulombElapsed time (t): 601 ms = 0.601 seconds

We can determine the magnitude of the electric current (I) using the following expression.

I = Q / t

I = 93.0 C / 0.601 s

I = 155 C/s

I = 155 A

The magnitude of the electric current is 155 Ampere.

On a balance, you have beakers of AgNO3 A g N O 3 solution and NaCl N a C l solution. When mixed, they will form AgCl(s) A g C l ( s ) . What will happen to the mass of the new mixture?

Answers

Answer:

It remains the same.

Explanation:

From the law of conservation of mass which states that mass in an isolated system can neither be created nor destroyed in a chemical reaction.

According to the law of conservation of mass, the mass of the products in a chemical reaction must equal the mass of the reactants, that is total mass of the system is unchanged after the chemical reaction.

So therefore, the reaction of

AgNO3(aq) + HCl(aq) --> AgCl(aq) + HNO3(aq)

the mass of the solution before and after the reaction is unchanged.

2.22 (a) Briefly cite the main differences between ionic, covalent, and metallic bonding. (b) State the Pauli exclusion principle.

Answers

Answer: Ioniç bond is also called electrovalent bond. It involves the transfer of electrons from positively charged ions to negatively charged ions. covalent bond is a type of chemical bond that involves electrons sharing by atoms of a molecule in order to achieve a stable electronic configuration.. Metallic bond is a type of chemical bond that forms between metal atoms and it occurs when positive metal ions are attracted to a negatively charged electron that are not associated with a single atom. The differences can be seen in the definitions above.

Pauli exclusion principle states that electrons which are identical cannot have the same quantum state.

Final answer:

Ionic bonding involves transfer of electrons. Covalent bonding is the sharing of electrons between atoms. Metallic bonding involves free electrons shared among positively charged ions. The Pauli Exclusion Principle dictates that no two electrons can have identical quantum numbers.

Explanation:

(a) Ionic, covalent, and metallic bonding are principal types of atomic bonding. Ionic bonding includes transfer of electrons from one atom to another, resulting in the formation of positive and negative ions, which are held together by electrostatic forces. In covalent bonding, electrons are shared between atoms. This happens usually between non-metals. Lastly, metallic bonding involves the sharing of free electrons among a lattice of positively charged ions, commonly seen in metals.

(b) The Pauli Exclusion Principle states that no two electrons in an atom can have identical quantum numbers. This means that each electron in an atom has a unique state, and it is distinguished by its quantum numbers.

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Calculate the atomic mass of silver if silver has 2 naturally occurring isotopes with the following masses and natural abundances: Ag-107 106.90509 amu 51.84% Ag-109 108.90476 amu 48.46% a 108.19 amu b 107.90 amu c 108.32 amu d 108.00 amu e 107.79 amu

Answers

Answer:

a. 108.19 amu

Explanation:

Isotopes are atoms of the same element, which have the same number of protons and electrons, but a different number of neutrons, and, because of that, different masses.

The atomic mass (M) in the periodic table is a ponderation of the masses of all isotopes found in nature. Thus, it is the summation of the percent multiplied by the mass of each isotope, so:

M = 0.5184*106.90509 + 0.4846*108.90476

M = 108.19 amu

amu = atomic mass unit.

The atomic mass of silver is 108.19 amu.

Isotopes are each of two or more forms of the same element that contain equal numbers of protons but different numbers of neutrons in their nuclei, and hence differ in relative atomic mass but not in chemical properties.

The atomic mass of an element is a weighted average of the masses of its isotopes, considering their natural abundances. We can calculate the atomic mass of silver using the following expression.

[tex]m = \frac{\Sigma m_i \times ab_i }{100}[/tex]

where,

mi: mass of the isotopeabi: abundance of the isotope

[tex]m = \frac{106.90509 amu \times 51.84 + 108.90476 amu \times 48.46 }{100} = 108.19 amu[/tex]

The atomic mass of silver is 108.19 amu.

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Given the reaction has a percent yield of 86.8 how many grams of aluminum iodide would be required to yield an actual amount of 73.75 grams of aluminum?

Answers

Answer:

Approximately [tex]1.29 \times 10^3[/tex] grams.

Explanation:

Let [tex]x[/tex] represent the number of grams of aluminum iodide required to yield that 73.75 grams of aluminum.  

In most cases, the charge on each aluminum ion would be +3 while the charge on each iodide ion would be -1. For the charges to balance, there needs to be three iodide ions for every aluminum ion. Hence, the empirical formula for aluminum iodide would be [tex]\rm AlI_3[/tex].

How many moles of formula units in that [tex]x[/tex] grams of [tex]\rm AlI_3[/tex]? Start by calculating its formula mass [tex]M(\mathrm{AlI_3})[/tex]. Look up the relative atomic mass of aluminum and iodine on a modern periodic table:

Al: 26.982.I: 126.904.

[tex]M(\mathrm{AlI_3}) = 1\times 26.982 + 3\times 126.904 = 410.694\; \rm g \cdot mol^{-1}[/tex].

[tex]n(\mathrm{AlI_3}) = \displaystyle \frac{m}{M} = \frac{x}{410.694}\;\rm mol[/tex].

Since there's one aluminum ion in every formula unit,

[tex]n(\mathrm{Al}) = n(\mathrm{AlI_3}) = \displaystyle \frac{x}{410.694}\; \rm mol[/tex].

How many grams of aluminum would that be?

[tex]m(\mathrm{Al}) = n \cdot M = \displaystyle \frac{x}{410.694}\; \times 26.982 = \frac{26.982}{410.694}\, x\; \rm g[/tex].

However, since according to the question, the percentage yield (of aluminum) is only [tex]86.8\%[/tex]. Hence, the actual yield of aluminum would be:

[tex]\begin{aligned}&\text{Actual Yield} \\ &= \text{Percentage Yield} \times \text{Theoretical Yield} \\ &= 86.8\% \times \frac{26.982}{410.694}\, x \\ &= 0.868 \times \frac{26.982}{410.694}\, x \\ &\approx 0.0570263\, x\; \rm g\end{aligned}[/tex].

Given that the actual yield is 73.75 grams,

[tex]0.0570263\, x = 73.75[/tex].

[tex]\displaystyle x = \frac{73.75}{0.0570263} \approx 1.29 \times 10^3\; \rm g[/tex].

Final answer:

To yield 73.75 grams of aluminum with a percent yield of 86.8%, approximately 1113.33 grams of aluminum iodide would be required.

Explanation:

To determine the amount of aluminum iodide required to yield 73.75 grams of aluminum with a percent yield of 86.8%, we need to use stoichiometry and the concept of percent yield.

First, we need to determine the theoretical yield of aluminum iodide using the balanced chemical equation: 2 Al + 3 I2 → 2 AlI3

From the equation, we can see that 2 moles of Al react with 3 moles of I2 to produce 2 moles of AlI3. Therefore, the molar ratio between Al and AlI3 is 2:2.

To calculate the theoretical yield of AlI3, we need to convert the mass of Al to moles using the molar mass of Al. Then, we use the mole ratio to find the moles of AlI3, and finally, convert it back to grams using the molar mass of AlI3.

Using the molar mass of Al (26.98 g/mol), we find that the moles of Al is 73.75 g / 26.98 g/mol = 2.73 moles.

Since the molar ratio between Al and AlI3 is 2:2, the moles of AlI3 produced is also 2.73 moles.

Finally, we can calculate the mass of AlI3 using the molar mass of AlI3 (407.7 g/mol): 2.73 moles * 407.7 g/mol = 1113.33 g.

Therefore, approximately 1113.33 grams of aluminum iodide would be required to yield an actual amount of 73.75 grams of aluminum with a percent yield of 86.8%.

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Arrange each set of atoms in order of increasing IE₁:
(a) Sr, Ca, Ba (b) N, B, Ne (c) Br, Rb, Se (d) As, Sb, Sn

Answers

Answer:

(a) Ba < Sr < Ca

(b) B < N < Ne

(c) Rb < Se < Br

(d) Sn < Sb < As

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