What should you do with the leftover chemicals after and experiment? What should you do with the products of an experiment?

Answer: A bug in the

Explanation:

Magnifying a bronze piece 100,000,000 times to see an individual atom is not the same amount of magnification as looking at the whole United States from a satellite and zooming in until you see a specific object.

Magnifying a bronze piece to see an individual atom, the magnification factor is extremely large, on the order of [tex]10^{8}[/tex] or 100,000,000 times. However, when looking at the whole United States from a satellite, even with significant zoom, the magnification factor would not be anywhere near this large. The level of magnification would depend on the altitude of the satellite and the size of the object being viewed, but even with the highest resolution satellite imagery, the magnification would still be orders of magnitude smaller than 100,000,000 times.

So, the comparison between these two scenarios is not equivalent and the level of magnification is vastly different.

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The stament is True, because, When the freezing point of the solution is lower than the freezing point of the pure solvent , it indicates that freezing point depression has occurred, and it is considered to be a positive result.

When a solution is composed of two or more components, the freezing point of the solution is usually lower than the freezing point of the pure solvent. This phenomenon is known as freezing point depression. Freezing point depression occurs because the addition of solutes to the solvent increases the energy required for the molecules to form the solid lattice structure associated with freezing. As a result, the temperature has to be lowered to the point where it can provide enough energy to form the lattice, and this is the freezing point of the solution.

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The -OH on the end of the pentanol molecule will affect the surface tension as it will be higher as that of as pentane or hexane.

This is referred to as the tension of the surface film of a liquid caused by the attraction of the particles in the surface layer by the bulk of the liquid.

It minimizes the surface area and the higher strength of the intermolecular force is present in the pentanol therefore the surface tension of the pentanol is more than surface tension of the pentane and hexane.

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The solubility curve shows how much of teh solute can dissolve at a particular temperature.

A solubility curve is a graphical representation of the relationship between the temperature and the maximum amount of a solute that can dissolve in a given amount of solvent to form a solution. It shows the solubility of a solid solute in a liquid solvent, typically at a pressure of 1 atmosphere.

The solubility of a solute generally increases with temperature, and the solubility curve can be used to predict the concentration of a solution at a given temperature.

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According to It is accurate to say because orbitals are just a delocalized clouds of electron density, as stated .

Orbital is a mathematical equation, also known as a plane wave, that represents the characteristics of a group of nuclei, such as a molecule, or an atomic nucleus, when enough than two electrons are present.

Spdf or SPDF may refer to the names of the subshells or orbitals, as well as the octet, for which there is old obsolete method of classifying spectral lines as "sharp," "primary," "diffuse," and "fundamental."

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The molarity of the hydrochloric acid in the solution can be calculated by dividing the mass of the acid (38 g) by its molar mass (36.5 g/mol) and then dividing that number by the volume of the solution (1000 mL). This gives a molarity of 0.104 mol/L.

Concentrated hydrochloric acid is a solution of hydrogen chloride (HCl) in water. It is a highly corrosive, strong mineral acid with many industrial uses. It is used in the production of chlorides, fertilizers, and dyes, in electroplating, and in the photographic, textile, and rubber industries.

It is also used to clean metals and as a laboratory reagent. Concentrated hydrochloric acid is a corrosive liquid and contact with the skin and eyes should be avoided. Inhalation of the fumes of the acid should also be avoided.

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A higher effective nuclear charge causes greater attractions to the electrons, pulling the electron cloud closer to the nucleus which results in a smaller atomic radius.

Moving left to right across a period reduces the atomic radius because the nuclear charge increases as the atomic number increases, making the atom more compact.
Atomic radius decreases as you move from left to right across a period (due to increasing nuclear charge) and increases as you move down a group on the periodic table (due to the increasing number of electron shells).
because the valence electrons in periods are in the same outermost shell. Moving from left to right, the atomic number increases over the same time period, increasing the effective nuclear charge. The atomic radius of elements decreases as attractive forces increase.

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The difference between the way molecules move in solids compared to other phases is the limited movement and vibrational motion of molecules in solids, compared to the more fluid and unrestricted movement of molecules in liquids and gases.

In solids, molecules are tightly packed and have limited movement due to the strong bonds between them. This results in a fixed arrangement of molecules in the solid phase, with only small vibrational movements occurring.

Compared to molecules in liquids and gases, molecules in solids move differently because they are restricted to small vibrational movements rather than freely flowing and colliding with one another. In liquids, molecules have more freedom to move and flow past one another, while in gases, molecules have the most freedom to move and collide with one another, resulting in the most rapid movement of all the phases.

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CN- And O+ be applied features about the following lewis structure make this structure very unlikely to contribute much to the bonding in nco.

Lewis structures, additionally known as Lewis dot formulas, Lewis dot systems, electron dot systems, or Lewis electron dot systems (LEDS), are diagrams that show the bonding among atoms of a molecule, in addition to the lone pairs of electrons that can exist in the molecule. A Lewis structure can be drawn for any covalently bonded molecule, as well as coordination compounds. The Lewis structure turned into named after  Lewis structures extend the concept of the electron dot diagram by adding traces among atoms to symbolize shared pairs in a chemical bond.

Lewis systems display every atom and its role in the structure of the molecule through the use of its chemical symbol. lines are drawn among atoms that can be bonded to each other (pairs of dots may be used in preference to strains). extra electrons that form lone pairs are represented as pairs of dots and are placed subsequent to the atoms.

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When estimating VO2max using ml/kg/min , the most appropriate number of significant digits to use is 4-5.

This is because the values for VO2max typically range from 15-50 ml/kg/min, and the accuracy of the value can vary depending on the individual. Therefore, it's important to use the most appropriate number of significant digits when measuring VO2max to ensure accuracy.

When measuring VO2max, it is important to use the most accurate values to ensure accuracy. This involves taking into account factors such as the individual's age, sex, body composition, and fitness level. Additionally, the duration and intensity of the exercise being measured should also be taken into consideration.

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If 50 ml of 0.50 m nacl solution is diluted with water to a volume of 500 ml, The new concentration of the solution is 0.05 M (0.05 moles per liter).

To find the new concentration, you can use the equation for dilution:

C1V1 = C2V2

where,

C1 = the initial concentration,

V1 = the initial volume,

C2 = the final concentration,

V2 = the final volume.

Plug in the known values:

C1 = 0.5 M, V1 = 50 ml, V2 = 500 ml.

C2 = ... ? [M]

Rearranging the equation:

C2 = C1 x V1 / V2

C2 = 0.5 x 50 / 500

C2 = 0.05

So, the new concentration is 0.05 M, which is equivalent to option "d. 0.05 M".

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Spectra analysis is the process of interpreting the information contained in a spectrum, such as a mass, IR, NMR or Raman spectra. The peaks in a spectrum represent specific molecular species or functional groups, and the assignment of these peaks to specific compounds or functional groups is an important part of spectra analysis.

The emission spectra or emission spectrum of a chemical element or chemical compound is the spectrum of frequencies of electromagnetic radiation emitted due to an atom or molecule making a transition from a high energy state to a lower energy state.

In chemical reactions, impurities are often produced as byproducts and can interfere with the desired outcome. Some common impurities include unreacted starting materials, side products, contaminants, and degradation products. Whether or not these impurities are visible in a spectrum depends on the sensitivity of the instrument and the specific spectra being analyzed.

If you provide me with more specific information about the spectra you're analyzing, I would be happy to provide more information.

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The primary structure of a protein is only the arrangement of the amino acids within a polypeptide chain.

A chain of such amino acids arranged in a linear fashion makes up the main structure. Areas of amino acid chains which are stabilized via hydrogen bonds from of the polypeptide backbone are found in the secondary structure. The secondary structure is produced by these hydrogen bonds as alpha-helixes and beta-pleated sheets.

Protein's primary structure. The precise arrangement of amino acids in the chains that make up proteins' primary structures. As the final fold and hence the function of a protein are determined by the precise sequence of the proteins, it is crucial.

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In the kinetics of an iodine clock reaction procedure, the initial rate is calculated by multiplying the initial concentration of thiosulfate by half, and dividing by the elapsed time as measured with a stop watch.

Chemistry classes frequently employ the "clock reaction" to examine the rate at which reactions occur because of its striking color change from colorless to blue. When I2 and starch interact, a dark blue iodine/starch complex is created, which causes the color to change. With the aid of a stopwatch, the pace of reaction can be precisely calculated by noting the moment the blue complex first emerges.

The method of beginning rates is used in this experiment to establish the rate law for a reaction.

The primary reaction to be investigated is the oxidation of I- by S2O82-(persulfate) in aqueous solution, or the "iodine clock reaction":

Slow, rate-determining step in equation 1: 2I- (aq) + S2O82- (aq) I2 (aq) + 2SO42- (aq).

Equation 2's fast step: I2 (aq) + 2S2O32- 2I- (aq) + S4O62-

When the primary reaction produces a particular quantity of I2, the "clock" reaction will signal. Equation 2's molar ratio can be used to compute the amount of I2 produced prior to the color change from the known addition of S2O32-. The rate at which the concentration of I2 changes over time is calculated using Equation 1.

Thiosulfate and Stop Watch are the proper choices. As a result, the complete statement will read as follows: "In the kinetics of an Iodine Clock Reaction process, the Initial rate is computed by multiplying the initial concentration of the thiosulfate by half, and dividing by the elapsed time monitored using a stop watch."

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Oxygen (O2), and Oxygen serves as the ultimate electron acceptor (O2). Since oxygen has a strong affinity for electrons and a high electronegativity, it is the perfect acceptor for low-energy electrons.

If one "molecule of isocitrate" serves as a substrate during "aerobic respiration," four molecules of "the last electron acceptor" in ETS are needed. The creation of three and two ATP molecules, respectively, arises from the electron transport system, which is the last stage in the process of releasing ATP from FADH2 and NADPH.

NADH performs the same role as the food molecule as an electron donor. The oxidoreductases, which transfer electrons from NADH to molecular oxygen, another electron acceptor, are the electron transporters anchored in the mitochondrial membrane.

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True. The molecular weight of a protein determines how it is separated in the first dimension of a 2D gel electrophoresis.

While two-dimensional gel electrophoresis separates proteins first on the basis of isoelectric point and secondly on the basis of size, one-dimensional SDS-PAGE separates proteins based on size.

In isoelectric focusing, proteins are first divided according to their isoelectric point (pl), then in a subsequent separation by SDS-PAGE, which separates proteins according to their molecular weight. Using high-throughput mass spectrometry, each protein spot on a 2D electrophoresis may be eluted and identified.

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Answer: 38.1 mg

Explanation:

Step 1: Write the equation for the reaction.

Fe (s) + Cl₂ (g) ⇒ FeCl₃ (s)

Step 2: Balance the equation.

2 Fe (s) + 3 Cl₂ (g) ⇒ 2 FeCl₃ (s)

Step 3: Convert 13.2 mg iron into moles iron.

13.1 mg x (1 g/1000 mg) x (1 mol/55.8 g) = .000235 mol Fe

Step 4: Use the balanced equation from step 2, the moles of Fe from step 3, and the molar mass of FeCl₃ to find the moles FeCl₃.

1 mole FeCl₃ = 162.2 g/mol

.000235 mol Fe x (2 mol FeCl₃/2 mol Fe) x (162.2 g FeCl₃/1 mol FeCl₃) = 0.0381 g FeCl₃

Step 5: Convert grams FeCl₃ to milligrams FeCl₃.

1 g = 1000 mg

0.0381 g FeCl₃ x 1000 mg/1 g = 38.1 mg

As stated in the preceding statement The velocity doubles if we triple the fuel in a gas vessel.

By evaluating the four major gases you're searching for—oxygen (O2), methane gas (CO), sulfur compounds (H2S), and methane (CH4)—a 4 gas sensor can help you protect your employees in any setting.

The average rotational kinetic energy of both the molecules in a gas is measured by its temperature. The molecule in some kind of a hot gas move more quickly than those in a cold gas; while the mass of the gas doesn't change, the kinetic energy does, which raises the temperature.

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A situation where it is necessary to neutralize a chemical before disposing of it because the chemical contains a compound that can affect nearby objects. For example, acid laboratory waste that needs to be neutralized before being discharged into the sewer. This is because acid solutions are corrosive so they can cause corrosion in water pipes.

A chemical substance or chemical, also known as a pure substance is a form of matter that has a constant chemical composition and characteristic properties.

The following are examples of some chemicals:

The disposal of chemicals is also not arbitrary because these chemicals can affect objects around them

As acid laboratory waste needs to be neutralized before being discharged into the sewer. This is because acid solutions are corrosive so they can cause corrosion in water pipes.

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The amount of C that will develop is 0.5 moles since B is limiting. As a result, some A will remain after the reaction and all of the B will be consumed.

The mole ratios of the reactants and products are shown by the balanced chemical equation. We know that one mole of A interacts with one mole of B to generate one mole of C since the equation is balanced. As a result, the reaction will produce an identical amount of moles of C. Given that Millie Mole contains 0.8 moles of A and 0.5 moles of B, the quantity of C that may be generated depends on the amount of B, which acts as the limiting reactant. Since B is restricting, only 0.5 moles of C will grow. As a result, following the reaction, some A will be left behind and no B will be present.

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An atom's reactivity is determined by the amount of electrons in its outermost shell.

A chemical element is uniquely determined by its atoms, which are tiny pieces of matter. An atom is made up of a core core and one or perhaps more electrons with negative charges that orbit it. The positive charges, comparatively hefty atomic nuclei that make up the nucleus may be present.

Quarks and protons are the two categories of fundamental components that comprise an atom. An atom's nucleus is encircled by an area of electrons. The electrical charge of the every electron is negative one. The neutrons and protons which together help compensate an atom's nucleus, are formed of quarks.

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Under saturating agonist conditions, the functional state that describes the NMDA receptor conformation with the lowest Gibbs free energy is Option B. bound to agonists and permeant to ions.

This is because in this state, the receptor is bound to agonists and is open, allowing the flow of ions, leading to the lowest Gibbs free energy. The other states, such as unbound to agonists and impermeant to ions, or unbound to agonists and permeant to ions, would have higher Gibbs free energy due to different conformations of the receptor. The N-methyl-D-aspartate receptor (NMDA receptor) is a type of glutamate receptor that plays a key role in synaptic plasticity and memory. The conformation of the NMDA receptor can be described in terms of its binding to agonists (activating molecules) and permeability to ions. Under saturating agonist conditions, the conformation with the lowest Gibbs free energy is likely to be the one that is bound to agonists and permeant to ions. This conformation has the highest affinity for agonists and the greatest ability to allow ions to pass through, which will result in maximal activation of the receptor. On the other hand, a conformation that is unbound to agonists and impermeant to ions will have a higher Gibbs free energy and will therefore be less likely to be the dominant form under these conditions.

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Of the bonds C-C, C=C, and C≡C, the C-C bond is the weakeast and longest. The correct answer is C.

A covalent link between two carbon atoms is known as a carbon-carbon bond. The single bond, which consists of two electrons—one from each of the two atoms—is the most prevalent type. One hybridized orbital from each of the carbon atoms contributes to the formation of the carbon-carbon single bond, which is known as a sigma bond.

A triple bond made of carbon atoms has the highest bond energy since it is the strongest bond. A carbon-carbon single bond has the lowest bond energy since it is the weakest bond.

C≡C > C=C > C−C.  is the proper order for the bond energies of C≡C, C=C, and C−C bonds.

Your question is incomplete but most probably your full question was

Of the bonds C-C, C=C, and C≡C, the C-C bond is

a. strongest/shortest

b. strongest/longest

c. weakest/longest

d. weakest/shortest

e. intermediate in both strength and length

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A reaction between sodium acetate, acetic acid, and sodium bicarbonate occurs. Carbon dioxide gas was produced when liquid vinegar was added to the solid baking soda.

Once the carbonic acid has broken down, water and carbon dioxide, or CO2, will be released. This results in 4.4 g of carbon dioxide being produced from the reaction of 8.4 g of sodium bicarbonate and 20 g of acetic acid.

In the reaction of 5 cm3 baking soda and 100 cm3 vinegar, 0.083 moles of CO2 gas and 0.083 moles of sodium acetate should be produced, whereas 0.01 moles of sodium bicarbonate should remain unreacted.

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True. There is a tendency for an electron in an orbital that enters the nucleus to have a larger effective nuclear charge than an electron in an orbital that does not.

Outside of an atom's nucleus, electrons are negatively charged particles that make up the atom. They are in charge of an atom's chemical and physical properties and inhabit the electron shells or orbitals of an atom.

This is due to the higher attraction between an electron and the positive charge of the nucleus the closer the electron is to the nucleus. The actual nuclear charge less the shielding provided by the electrons in the inner shells is the effective nuclear charge that an electron experiences. Due to the shielding effect of the inner electrons, electrons that are further from the nucleus suffer a decreased effective nuclear charge. Because of this, electrons in orbitals that enter the nucleus closely will have a larger effective nuclear charge and be more tightly bonded to the nucleus, compared to electrons in orbitals that enter the nucleus more distantly.

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The value of the rate constant is 3.6×[tex]10^{-5} m^{-1} s^{-1}[/tex].

The rate law is:

Rate = k[C2H5Br][OH-]

Substituting values given :

1.7× [tex]10^{-7[/tex] = k × 0.0477×0.100

Rate constant k= 3.56×[tex]10^{-5} m^{-1} s^{-1}[/tex]≈ 3.6×[tex]10^{-5} m^{-1} s^{-1}[/tex]

A chemical response is a manner that leads to the chemical transformation of 1 set of chemical substances to any other. Classically, chemical reactions embody modifications that handiest involve the positions of electrons inside the forming and breaking of chemical bonds among atoms, without exchange to the nuclei (no change to the factors gift), and may regularly be described with the aid of a chemical equation. Nuclear chemistry is a sub-area of chemistry that involves the chemical reactions of risky and radioactive elements where both electronic and nuclear modifications can arise.

The substance (or materials) initially worried in a chemical reaction are called reactants or reagents. Chemical reactions are commonly characterized by using a chemical trade, and they yield one or greater merchandise, which usually have residences exclusive from the reactants. Reactions often encompass a sequence of man or woman sub-steps, so-referred to as fundamental reactions, and the statistics on the correct path of movement are part of the response mechanism.

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Complete Question:

The reaction between ethyl bromide (C2H5Br) and hydroxide ion in ethyl alcohol at 330 K, C2H5BR(alc) + OH-(alc) --> C2H5OH(l) + Br-(alc), is first order each in ethyl bromide and hydroxide ion. When [C2H5Br] is 0.0477 M and [OH-] is 0.100 M, the rate of disappearance of ethyl bromide is 1.7 x 10^-7 M/s.What is the value of the rate constant?

A dipole is indeed a polar molecule featuring two electrically charged areas from either end.

Both negative and positive charge areas are present in polar compounds. An illustration of a polar substance is water. Given its form and type of bonds, the molecule has a net positive charge for one end (the gas end) and a gradually decreasing charge on the other side (the oxygen end).

All covalent bonds that are polar and hydrophilic should be depicted by sending arrows towards an more charged object in order to identify whether the molecule stands polar or non-polar. The relative polarity can be depicted by altering the arrows' lengths.

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The molarity of the final solution is 0.368 M.

Phosphoric acid, also known as orthophosphoric acid, monophosphoric acid, or phosphoric(V) acid, is an inorganic solid with the chemical formula H3PO4 that contains phosphorus.

This can be calculated using the equation [tex]M1V1 = M2V2,[/tex]

where [tex]M1[/tex] is the molarity of the concentrated [tex]H3PO4 (14.7 M)[/tex]

[tex]V1[/tex] is the volume of the concentrated [tex]H3PO4 (25.0 mL)[/tex]

[tex]M2[/tex] is the molarity of the diluted solution (unknown)

and [tex]V2[/tex] is the volume of the diluted solution, may be used to determine this [tex](750.0 mL)[/tex]

When the given numbers are plugged in, the result is

[tex](14.7 M)(25.0 mL) = M2(750.0 mL),[/tex]

[tex]M2 = 0.368 M.[/tex]

The Molarity of final solution is 0.368M

It is frequently found as an 85% aqueous solution, which is a syrupy liquid that is colourless, odourless, and non-volatile. It is a significant industrial chemical that is used in several fertilisers.

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complete question:

A 25.0 mL sample of concentrated H3PO4 (14.7 M) is diluted to a final volume of 750.0 mL. What is the molarity of the final solution?

Group of answer choices

0.368

0.750

0.490

0.980

1) Option 3. Electrons. The type of subatomic particle that most directly determines the chemical reactivity of an atom is electrons.

Electrons are negatively charged particles that occupy the outermost energy level, or valence shell, of an atom. The number of electrons in this valence shell, as well as the arrangement of these electrons, determines the chemical properties of an atom and its reactivity. For example, an atom that has a full valence shell, with 8 electrons in its outer energy level, is considered to be unreactive and unlikely to form chemical bonds. On the other hand, an atom with a partially filled valence shell, such as carbon, nitrogen, or oxygen, is likely to participate in chemical reactions and form bonds with other atoms.

2) carbon (atomic number 6, atomic mass 12) usually makes 4 covalent bonds in organic molecules

Carbon, with atomic number 6 and atomic mass 12, usually forms 4 covalent bonds in organic molecules. This is due to the presence of 4 valence electrons in the outermost shell of the carbon atom. In covalent bonding, atoms share electrons to form a bond and complete their outermost electron shell. Carbon can bond with other elements such as hydrogen, oxygen, nitrogen, etc. to form complex organic molecules such as carbohydrates, lipids, proteins, etc. The ability of carbon to form multiple covalent bonds with other atoms is what makes it the backbone of all living organisms and the central component of organic chemistry. The number of covalent bonds an atom can form is directly related to the number of valence electrons it has, which in turn determines its chemical reactivity.

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Therefore option a and e is correct.

The synthetic polypeptides polylysine and polyglutamate are two examples of under the right circumstances, polylysine and polyglutamate may both create alpha-helical structures.

In polypeptides, such as polylysine and polyglutamate, the development of the alpha-helix is impacted by a number of variables, including pH, temperature, and solvent conditions. One of the most crucial elements influencing the creation of an alpha-helix is the pH level. Generally speaking, neutral to slightly basic pH levels support alpha-helix development (around 7 to 9). However, depending on the particular circumstances and the sequence of the polypeptide, the precise pH range for alpha-helix formation in polylysine and polyglutamate may change.

The NH2 groups on the side chains of lysine become charged when the pH decreases, making it impossible for helices to form due to charge repulsion between these groups.

If more than 50% of the lysine residues need to be charged in order to "break" the helix, this might happen below the lysine pKa. A different pKa for lysine residues in polylysine compared to the monomer (free amino acid) in solution is another option.

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