What is an amino acid called after it becomes a part of a peptide?

Answer:

Explanation:

Answer:

Why can a liquid take the shape of the bottom of its container?

Answer :

Liquids have a fixed volume but not have a fixed shape :

» The interparticle forces of attraction in liquids are strong enough to keep the particles together, therfore, they have a fixed volume.

» But these forces are not strong enough to keep the particles together, therefore, liquids do jot have a fixed shape.

» They take up the shape of the vessel in which they are kept.

The feature(s) of Compound 1 that are responsible for the pH dependence of aggregation in Equation 1 are likely the presence of acidic or basic functional groups within the molecule.

Depending on the pH of the environment, these functional groups may be protonated or deprotonated, leading to changes in the overall charge and structure of the molecule. These changes can then affect the interactions between multiple molecules of Compound 1, leading to differences in self-assembly and aggregation behavior at different pH values.
Compound 1's pH-dependent self-assembly can be attributed to the presence of ionizable functional groups in the molecule. These groups, such as carboxylic acids or amines, undergo protonation or deprotonation depending on the pH, which in turn influences the molecule's aggregation behavior (Equation 1). This change in aggregation is due to alterations in the molecule's charge, solubility, and intermolecular interactions as the pH changes.

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It is important to avoid mixing strong acids with strong bases as they can react violently and release a large amount of heat.

It is important to avoid mixing strong acids with strong bases as they can react violently and release a large amount of heat. This type of reaction is highly exothermic and can cause an explosion or fire, especially if large quantities of acid and base are involved. It is also important to be careful when mixing acids and bases of any strength, as they can produce harmful fumes or spatter.

Therefore,  it is recommended to always follow safe laboratory practices and consult with a qualified expert before conducting any chemical reactions.
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The choice of visualization technique will depend on factors such as the sensitivity required, the availability of equipment, and the complexity of the mixture being analyzed.

To visualize the reaction mixture in the synthesis of butyl acetate using Thin-Layer Chromatography (TLC), one would use a UV lamp or a UV-Vis spectrophotometer. TLC is a separation technique that involves the migration of components of a mixture on a thin layer of stationary phase. In order to visualize these components, they need to be detected by a method that is both sensitive and specific.

UV-Vis spectrophotometry is a technique that detects components based on their ability to absorb light at specific wavelengths. It is a highly sensitive and specific method that is capable of detecting even trace amounts of analytes. A UV lamp, on the other hand, is a simple and inexpensive method of detection that uses UV light to visualize the components of a TLC plate. Both methods are commonly used in TLC and can provide accurate and reliable results.

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If the discharge pressure of a centrifugal pump is increased and the pump speed remains the same, the pump discharge flow output will decrease.

This is due to the fact that an increase in discharge pressure causes an increase in the pump's head, which results in a decrease in the pump's flow output. This is a characteristic of centrifugal pumps, which operate based on the principle of creating a centrifugal force that moves fluid through the pump's impeller and out the discharge.
Your answer: a) Decrease

When the discharge pressure of a centrifugal pump is increased and the pump speed remains the same, the pump discharge flow output will decrease. This is because increased pressure creates a greater resistance to flow, resulting in a lower output.

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Answer:

5. x = 1218/79 or 15.4 (rounded)

6. x = 1429/26 or 56.9 (rounded)

Answer   c

                                                           the answer is c                                                                              

D. Water-cement ratio is the principal determinant of concrete strength.

The water-cement ratio is the ratio of the weight of water to the weight of cement in a concrete mix. It has a significant impact on the strength and durability of concrete. When the water-cement ratio is high, the concrete will have more water and less cement, resulting in weaker concrete with lower durability. Conversely, a lower water-cement ratio will result in stronger, more durable concrete. The amount of air entrained, the type of Portland cement used, and the volume of aggregate in the mix can all influence the strength of concrete to some extent, but the water-cement ratio is the most critical factor. To achieve the desirable strength and durability of concrete, it's essential to use an appropriate water-cement ratio in the mix.

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Memberwise assignment can cause problems with a class that contains a pointer member because it can lead to shallow copying and memory management issues. When memberwise assignment occurs, each member of the source object is copied directly to the target object. In the case of a pointer member, only the pointer's address is copied, not the memory it points to.

Memberwise assignment refers to the process of copying the values of one object's members into another object's members. This process can cause problems with a class that contains a pointer member because when memberwise assignment occurs, the pointer is copied but not the memory it points to. This can result in two objects pointing to the same memory location, which can lead to unexpected behavior if changes are made to the memory through one object's pointer. Additionally, if one object is deleted or goes out of scope, the memory pointed to by its pointer member will also be deleted, leaving the other object's pointer pointing to invalid memory. To avoid these problems, it is recommended to implement a copy constructor and/or copy assignment operator that properly handles the pointer member, such as creating a deep copy of the pointed-to memory rather than simply copying the pointer itself.

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Enantiomers, which are stereoisomers with non-superimposable mirror images, cannot be separated from each other by recrystallization alone, as they have identical physical and chemical properties.

Enantiomers cannot be separated from each other by recrystallization alone. Recrystallization is a process of purifying a compound by dissolving it in a solvent and then allowing it to slowly crystallize out of the solution. Enantiomers have identical physical properties such as solubility and melting point, making it impossible to separate them using recrystallization. However, enantiomers can be separated using chromatography techniques such as chiral chromatography, which takes advantage of the differences in the interaction of enantiomers with a chiral stationary phase. In this method, the mixture to be separated is dissolved in a solvent and the solution is passed through a column packed with material that tends to adsorb organic compounds.

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The element that's most likely to produce a 2+ electron calcium is the correct answer.

Calcium sources include milk, cheese, and other dairy products. Green leafy vegetables, such as curly kale and okra, but not spinach (although spinach contains a lot of calcium, the body can't digest it all). Soya drinks with calcium.

A typical adult requires 1,000 mg of minerals per day. For women across the age in 50 or men over the power source age of 71, the amount raises to a total of 1,200 milligrams per day. "It's best to get your calcium from the food you eat, which is very doable because calcium is a substance found in a variety of foods, asserts Dr. Brown.

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The mixture is uniform throughout: A mixture of ethanol and water is a homogeneous mixture. The components in the mixture are immiscible. The mixture is colorless:

A homogenous mixture is a mixture in which the individual components are evenly distributed throughout the mixture, usually resulting in a uniform composition. This is in contrast to a heterogenous mixture, in which the individual components are clearly visible and the composition is not uniform. Examples of homogenous mixtures include air, saline solution, and vinegar.

Ethanol has a variety of uses in different industries. It is a common fuel for powering engines, either used on its own or as part of a blend with gasoline. It is also used as a solvent in the production of many products, such as paints, varnishes, antifreeze, and inks. Some liquid medications also contain ethanol because of its ability to dissolve certain active ingredients. Ethanol can also be used as a fuel source in the production of electricity via a process called fermentation. Finally, ethanol is used as an alternative fuel source that is commercially produced from biomass.

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The statements that support the conclusion that a mixture of ethanol and water is a solution are :- (i) The mixture is uniform throughout.; (ii) The components do not separate upon sitting over time. ;(iii) The mixture is colorless.

Based on your question, the statements that support the conclusion that a mixture of ethanol and water is a solution are:
- The mixture is uniform throughout.
- The components do not separate upon sitting over time.
- The mixture is colorless.

A mixture in chemistry is a substance made up of two or more unrelated chemical components. A mixture is a physical combination of two or more distinct substances that can take the form of solutions, suspensions, or colloids.

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The pollutant that would most likely cause the most damage to the nervous system would be lead. So the correct option is c.

Lead is a toxic heavy metal that can cause significant damage to the nervous system, especially in children. Lead exposure can result in cognitive impairment, developmental delays, learning disabilities, and other neurological effects. Lead can accumulate in the body over time, and even low levels of exposure can be harmful, particularly to the developing nervous system in children.

Sulfur dioxide (SO2) and nitrogen dioxide (NO2) are air pollutants primarily associated with respiratory and cardiovascular health effects. They can irritate the respiratory system and exacerbate respiratory conditions such as asthma, but they are not known to directly cause damage to the nervous system.

Particulate matter (PM), also known as particle pollution, refers to tiny particles suspended in the air, such as dust, smoke, and soot. PM can cause respiratory and cardiovascular health effects when inhaled, but its direct impact on the nervous system is less well-established compared to lead.

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The complexation of Cu₂ by NH₃ has a negative effect on the half-cell potential of Cu₂.

The complexation of Cu₂ by NH₃ to produce [Cu(NH₃)₄]₂ has an effect on the half-cell potential of Cu₂. The formation of the complex shifts the equilibrium towards the formation of the complex, resulting in a decrease in the concentration of Cu₂. This leads to a decrease in the half-cell potential of Cu₂. Additionally, the complexation of Cu₂ by NH₃ stabilizes the Cu₂ ion, making it less likely to participate in redox reactions, further decreasing the half-cell potential. Therefore, the complexation of Cu₂ by NH₃ has a negative effect on the half-cell potential of Cu₂.

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To prevent the atmospheric carbon dioxide levels from continuing to increase, it is necessary to slash emissions to:  Option D. 70% of their 1990 levels.

In order to slow down the increase in atmospheric carbon dioxide levels, emissions must be reduced. The goal is to reach net-zero emissions, which means that any remaining emissions are balanced out by actions such as planting trees or using carbon capture technology. The Paris Agreement, which was signed in 2015 by almost all countries in the world, aims to keep global temperature rise below 2°C above pre-industrial levels and pursue efforts to limit the increase to 1.5°C. To achieve this, countries have committed to reducing their greenhouse gas emissions, with a goal of reducing emissions to 70% of their 1990 levels by 2030. Hence, The correct answer is d. 70% of their 1990 levels.

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The amount of lime must be added per day to complete the nitrification reaction if the lime is 70% CaO(s) by mass and the wastewater has a flow of 1 MGD (million gallons per day) and an initial alkalinity of 60 mg L-1 as CaCO₃ is 183.19 kg.

To determine how much lime (70% CaO by mass) must be added per day to complete the nitrification reaction, we need to first convert MGD to liters and calculate the required CaCO₃.

1 MGD = 3,785,411.78 liters

Total alkalinity in liters = 3,785,411.78 L × 60 mg/L

= 227,124,706.8 mg as CaCO₃

To convert this to lime (CaO), we'll use the molecular weight of CaCO₃ (100.09 g/mol) and CaO (56.08 g/mol).

Required CaO = (227,124,706.8 mg × 56.08 g/mol) / 100.09 g/mol

= 128,229,980.83 mg as CaO

Since the lime is 70% CaO by mass, we need to determine the total lime needed:

Total lime = 128,229,980.83 mg / 0.7

= 183,185,687.62 mg

Therefore, 183,185,687.62 mg (or approximately 183.19 kg) of lime must be added per day to complete the nitrification reaction.

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Many moles of chlorine gas reacts with 1 mol of hydrogen gas is 1 mol.

According to the balanced chemical equation:

H₂(g) + Cl₂(g) → 2 HCl(g)

1 mole of hydrogen gas reacts with 1 mole of chlorine gas to produce 2 moles of hydrogen chloride gas. Therefore, if we want to know how many moles of chlorine gas react with 1 mole of hydrogen gas, we can use the stoichiometric ratio of the balanced equation, which is 1:1 for H₂ and Cl₂.

This means that for every 1 mole of hydrogen gas, we need 1 mole of chlorine gas to react completely and produce 2 moles of hydrogen chloride gas.

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Assembly of molecules refers to the process of individual molecules coming together to form a larger, more complex structure.

Simple diffusion, on the other hand, is a passive process where molecules move from an area of high concentration to an area of low concentration. While assembly of molecules can occur spontaneously, simple diffusion does not involve any organized assembly process. Instead, it relies solely on the random motion of individual molecules. However, simple diffusion can still play a role in the assembly of larger structures by allowing individual molecules to come into contact and interact with each other.
Simple diffusion is a process in which molecules move from an area of higher concentration to an area of lower concentration without the assistance of any external energy or carrier proteins. In the assembly of molecules, simple diffusion plays a vital role in distributing substances evenly across the cellular environment, allowing for efficient functioning and maintaining a stable internal state.

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The mass of iron(ii) bromide added is 53.7 g when a chemist adds 100ml of a 24.9g/dl iron(ii) bromide solution to a flask.

To calculate the mass of iron(ii) bromide added, we need to use the concentration and volume of the solution added.
First, we convert the concentration from g/dl to g/ml by dividing by 10. Therefore, the concentration of the solution is 2.49 g/ml.
Next, we use the formula: mass = concentration x volume.
Mass = 2.49 g/ml x 100 ml = 249 g
However, this answer is not reasonable as the mass is much larger than the volume of the solution added. This is likely due to an error in the concentration given in the question.
To correct this, we can use the molar mass of iron(ii) bromide to calculate the mass. The molar mass of iron(ii) bromide is 215.84 g/mol.
Using the formula: mass = concentration x volume x molar mass, we get:
Mass = 24.9 g/dl x 100 ml x (1 dl/1000 ml) x (215.84 g/mol) = 53.7232 g

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The reaction quotient, Q, we need to use the formula Q = (C2H4)(H2O)/(C2H5OH), where the values in parentheses are the partial pressures of each species at equilibrium. The reaction quotient is 0.001.

The given information, we know that the partial pressure of C2H5OH is 10 atm, and the partial pressures of C2H4 and H2O are both 0.1 atm. Plugging these values into the formula, we get:

Q = (0.1)(0.1)/(10) = 0.001

The reaction quotient is 0.001.

It is important to note that the reaction quotient can give us information about the direction the reaction will proceed in order to reach equilibrium. If Q is less than the equilibrium constant, K, then the forward reaction is favored and the reaction will proceed in the forward direction to reach equilibrium.

If Q is greater than K, then the reverse reaction is favored and the reaction will proceed in the reverse direction to reach equilibrium. If Q is equal to K, then the system is at equilibrium and the reaction is balanced.

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The slope of the line of best fit, represented by the value -0.000215, relates to the rate constant, k.

In this question, the natural logarithm of the changes in pressure of a reactant was plotted against time. The resulting straight line indicated that the reaction is first order.

The equation of the line of best fit was obtained in the form y = mx + b, where y represents the natural logarithm of the reactant's pressure, m represents the slope of the line, and b represents the y-intercept. The slope of the line is also equal to the rate constant, k, which determines the reaction rate.

Therefore, the slope value of -0.000215 represents the rate constant of the reaction, with units of inverse time, such as per second or per minute, depending on the time unit used in the experiment.

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--The given question is incomplete, the complete question is given

" In this example, plotting the natural log of the changes in pressure of CH3NC vs time yielded a straight line! Accordingly, this reactant is considered first order, because a graph of the natural log of its concentration vs time yielded a straight line. The program provided an equation for a line of best fit through the data points. Lets take a look at this equation in the form y = mx + b. y + b 1st order : In[A]t - kt + In[A]o this reaction : In(PcH2NC) - kt + In(PcH;NC)

where the line of best fit is : y = -(0.000215)x + 6.02

Notice that the slope of this straight line, m, is also the rate constant, k ! Now that you have an equation for the line of best fit of this first order reactant, use it to determine the rate constant (including units) for this reaction.

Which value in the line of best fit above relates to the rate constant, k?"--

Static head is the pressure due only to the depth or elevation of water.

Static head is a term used in fluid mechanics and refers to the pressure generated by the weight of a fluid in a system when it is not flowing. This pressure is determined solely by the height of the fluid above a certain point in the system, and is directly proportional to the density of the fluid.

In a water supply system, static head is an important consideration because it determines the pressure available for various uses such as fire protection, irrigation, and domestic use. The height of the water source, such as a reservoir or water tower, is a primary factor in determining static head. The higher the source, the greater the static head and the greater the pressure available in the system.

Static head can be measured using pressure gauges or other instruments that measure the pressure at a given point in the system. It is important to consider static head in the design of water supply systems, as it can impact the ability of the system to provide adequate pressure for various uses.

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The molecular formula of a compound with an empirical formula of C2H2Br3 and molar mass by the empirical formula's mass (C2H2Br3 = 12.01 * 2 + 1.01 * 2 + 79.90 * 3 = 265.74 g/mol). 531.47 g/mol ÷ 265.74 g/mol = 2 = C4H4Br6.

To find the molecular formula, we need to know the actual number of atoms in the compound. The empirical formula tells us the simplest whole-number ratio of atoms in the compound, but we also know the molar mass, which can help us determine the actual number of atoms.

First, we need to calculate the empirical formula's molar mass:
2(12.01 g/mol for C) + 2(1.01 g/mol for H) + 3(79.90 g/mol for Br) = 283.74 g/mol

We can then divide the molar mass of the compound (531.47 g/mol) by the empirical formula's molar mass to get a ratio:
531.47 g/mol / 283.74 g/mol = 1.87

This means the molecular formula must have 1.87 times the number of atoms as the empirical formula. To get a whole number, we can round to the nearest whole number, which in this case is 2. Therefore, the molecular formula is:

2(C2H2Br3) = C4H4Br6

So the answer is B) C4H4Br6.

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The backwash rate for both conventional, rapid and high rate sand filters is typically 10 gpm/ft2.

This rate is used to remove accumulated particles and debris from the filter bed during the backwashing process. Backwashing is a critical process in the operation of sand filters as it helps to maintain the filter bed's efficiency and prolongs the life of the filter. During backwashing, water is forced through the filter bed in the opposite direction to the flow of water during filtration. This flow reversal dislodges and flushes out trapped particles and debris from the filter bed, which is then carried away by the backwash water. The backwash rate of 10 gpm/ft2 is the industry standard and ensures effective cleaning of the filter bed while preventing damage to the filter media.

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In the synthesis of dibenzalacetone, the source of the hydroxide ion that catalyzes the dehydration step is the base that is added to the reaction mixture.

The dehydration step involves the elimination of a water molecule from the intermediate formed in the condensation step, which results in the formation of the final product, dibenzalacetone. This reaction is usually carried out in the presence of a strong base, such as sodium hydroxide  or potassium hydroxide, which can abstract a proton from the hydroxyl group of the intermediate, generating a hydroxide ion as a nucleophile.

The hydroxide ion can then attack the beta-carbon of the intermediate, leading to the formation of a and the elimination of a molecule of water. This process is called an E1cB (Elimination Unimolecular Conjugate Base) reaction mechanism.

Therefore, the hydroxide ion that catalyzes the dehydration in the synthesis of dibenzalacetone is derived from the strong base that is added to the reaction mixture.

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When 25.0 grammes of Methane are consumed, 2.3385 moles of water are created.

The ratio between the atomic mass unit and gramme mass unit sizes affects the number in a mole, or Avogadro's number. One mole of hydrogen atoms weighs around one gramme, compared to the mass of one hydrogen atom, which is roughly one unit.

2 CH3CH3(g) + 5 O₂(g) → 4 CO₂(g) + 6 H₂O(g)

The molar mass of Methane is 16.04 g/mol, so 25.0 grams of CH₄ is equal to:

25.0 g / 16.04 g/mol = 1.559 mol CH₄

From the balanced equation, the molar ratio of CH₄ to Water is 2:3. Therefore, for every 2 moles of Methane consumed, 3 moles of Water are produced.

So, for 1.559 mol of CH₄ consumed, the amount of Water produced would be:

3/2 x 1.559 mol = 2.3385 mol

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Answer:

An enzyme called amylase breaks down starches (complex carbohydrates) into sugars, which your body can more easily absorb. Other words saliva contains special enzymes that help digest the starches in your food.

The pH value of swimming pools should be kept below 8 to prevent from decreases the amount of active chlorine available. So option (b) is true.

A pH less than 7 is acidic, and a pH greater than 7 is basic. The pH is a measure of the relative amount of free hydrogen ions and hydroxide ions in water. The accuracy of swimming pool water is measured in NTU or Nephelometric Turbidity Units. A 0.5 NTU level is recommended. The goal is to keep the pH between 7 and 7.6. Anyone swimming in the pool is at risk of boils if the water has a pH higher than 8, while a pH lower than 7 can injure swimmers' eyes. If the pH is higher than 7.8, the water has become alkaline. When the water is too alkaline, it reduces the effectiveness of the chlorine. Therefore, the main cause of non-pooling pH is, to prevent from reduces the active chlorine present because at hight pH it's effect reduces.

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The oxygen isotope ²⁰O has a half-life of 15 seconds, what fraction of a sample of pure ²⁰O remains after 1.0 minute is E. 1/16

we need to determine the fraction of the oxygen isotope ²⁰O remaining after 1.0 minute, given that its half-life is 15 seconds.

1.0 minute = 60 seconds

Now, we can calculate the number of half-lives that occur in 60 seconds:
60 seconds / 15 seconds/half-life = 4 half-lives

For each half-life, the remaining amount of ²⁰O is halved. We can use the formula:

Remaining fraction = (1/2[tex])^{4}[/tex], where n is the number of half-lives.

In this case, n = 4, so the remaining fraction is:

(1/2[tex])^{4}[/tex]= 1/16

Therefore, the fraction of the sample of pure ²⁰O remaining after 1.0 minute is 1/16.The correct answer is e.

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