Silica serves as the stationary phase in tlc chromatography, while liquid serves as the mobile phase.
What is chromatography and how does it work?Separate mixture's constituent parts by chromatography is a method. This mixture gets dissolved in a material known as the mobile phase to start the process, which then transports it through a material known as the stationary phase.
What is the advantage of chromatography?Chromatography enables precise separation, analysis, and purification. Very little sample volume is needed. It works with a variety of materials, including tissue extracts, plastics, food particles, pesticides, medicines, and food particles.
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What are Quantitative and Qualitative Properties? Try to make this answer short and understandable.
This is a Grade 9 Science Question
In simple terms, quantitative properties are properties that can be measured or quantified, such as size, mass, and volume. These properties are often expressed as numbers or numerical values, and can be compared and contrasted using mathematical operations such as addition, subtraction, multiplication, and division.
Qualitative properties, on the other hand, are properties that cannot be measured or quantified. These properties are often described using adjectives or other non-numerical descriptors, and they cannot be compared or contrasted using mathematical operations. Examples of qualitative properties include color, texture, and odor.
Overall, quantitative properties are properties that can be measured or quantified, while qualitative properties are properties that cannot be measured or quantified. These two types of properties are often used in scientific research and analysis to describe and compare different materials, substances, or phenomena.
which of the following contaminants in your glassware react with a grignard, effectively quenching the reagent? which of the following contaminants in your glassware react with a grignard, effectively quenching the reagent? silicone compounds in the glass itself vacuum grease dust particles in the air water
When a grignard reacts with the impurities in your glassware, water effectively quenches the reagent.
In order to generate Grignard reagents—and organometallic reagents in general—water is often strictly excluded. Strongly nucleophilic Grignard reagents react quickly and irreversibly with water as follows: R − M gX +H 2O → R − H ↑ + M gXOH. Highly reactive organomagnesium halides known as Grignard reagents are created when magnesium metal reacts with alkyl or alkenyl halides. They react with acidic hydrogens like alcohols, water, and carboxylic acids because they are very powerful bases. Grignard and alcohol produce magnesium alkoxide and the alkane of the alkyl halide that was utilized to create the Grignard.
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Write structural formulas for all of the possible structural isomers of n-hexene that can be formed by moving the position of the double bond. Draw the molecules on the canvas by choosing buttons from the Tools (for bonds), Atoms, and Advanced Template toolbars. The single bond is active by default.
The same molecular formula exists in structural isomers, but their atom connectivities change.
By shifting the double bond's position, n-hexene can have three structural isomers. Below is a list of these isomers' structural formulas:
H2C=CH-CH2-CH2-CH2-CH3 6
1-hexene
1 H3C CH=CH-CH2-CH2-CH3 6
2-hexene
6 H3C CH2-CH-CH-CH2-CH3 1
3-hexene
The term "structural isomer," also known as a "constitutional isomer," refers to a group of two or more organic compounds that share the same chemical formula but have different structures. In spite of having an identical chemical formula, the two molecules below differ in where the methyl group is located.
for illustration, The chemical formulae of butane and isobutane are identical because they both contain the same number of carbon (C) and hydrogen (H) atoms.
Five categories exist for structural isomerism:
Chain isomerism.Position isomerism.Functional group isomerism.Metamerism.Tautomerism.To learn more about Structural isomers. Please visit the below link.
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Calcium oxide reacts with water in a combination reaction to produce calcium hydroxide:
CaO (s) + H₂O (1)→ Ca(OH)2 (s)
A 3.50-g sample of CaO is reacted with 3.38 g of H₂O. How many grams of water remain after completion of reaction?
The experiment's yield as a percentage was 92.4%. The reaction's balanced equation is provided below: CaO + H₂O —>Ca(OH)₂
How much water is left over when the reaction is finished?The mass of CaO that reacted and the mass of Ca(OH)2 generated by the balanced equation will then be determined.
CaO has a molar mass of 40 plus 16.
= 56 g/mol
The balanced equation yields the mass of CaO as 1 56 = 56 g.
Ca(OH)2's molecular mass is 40 + 2(16 + 1)
= 74 g/mol
The balanced equation yields the mass of Ca(OH)2 as 1 74 = 74 g.
From the above balanced equation,
56 grams of CaO were converted into 74 grams of Ca(OH)2.
When 5 g of CaO reacts, 6.61 g of Ca(OH)2 is created.
Therefore, 6.61 g is the theoretical yield of Ca(OH)2.
Finally, we will calculate the Ca(OH)2 percentage yield.
Ca(OH)2 really produced 6.11 g.
Ca(OH)2 theoretical yield is 6.61 g.
The percentage of Ca(OH)2 that was produced was 92.4%.
Consequently, the experiment's percentage yield is 92.4%.
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for each reaction, consider whether a reaction will move in the forward (right) or reverse (left) direction? select the arrow that best indicates the acid-base equilibrium position.
A forward reaction is a reaction in which the products are produced from reactants and it goes from left to right in a reversible reaction.
Chemical equilibrium is the state in which both reactants and products are present in the concentrations which have no further tendency to change with time. A forward reaction is a reaction in which products are usually produced from reactants and it goes from left to right in a reversible reaction.
A backward reaction is a reaction in which reactants are produced from products and it goes from right to left in a reversible reaction. Chemical equilibrium is achieved when the rate of the forward reaction is generally equal to the rate of the backward reaction.
For a reversible reaction, one is the forward reaction and the other is generally considered as the backward reaction. The forward reactions usually favour the formation of products and the backward reaction favours the formation of reactants.
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a heat engine takes in 330 j of energy from a hot reservoir and performs 22.0 j of work in each cycle.
The efficiency of a heat engine, which consumes 330 j from a heated reservoir and expels 308 j of energy every cycle, is 6.66%.
A closed-cycle device called a heat engine uses heat from a hot reservoir to do beneficial work before rejecting the leftover heat to a cool reservoir.A cylindrical thermal conductor links a hot reservoir at 50 °C with a cold reservoir at -60 °C.
(a) Using formula of efficiency as:
e= W en8/∣Q h ∣ = 22.0J/330J =0.0666 or 6.66%
(b) Energy expelled to the cold reservoir in each cycle:
∣Q e ∣=∣Q h ∣−W eng =330J−22.0J=308J
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complete question:
A heat engine takes in 330 J of energy from a hot reservoir and performs 22.0 J of work in each cycle. Find (a) the efficiency of the engine and (b) the energy expelled to the cold reservoir in each cycle.
freshwater is naturally occurring water, which is 2.5% of global water such as lakes, rivers, streams, ground water, and rainwater. true or false?
True- freshwater is naturally occurring water, which is 2.5% of global water such as lakes, rivers, streams, ground water, and rainwater.
What is biome?Biological communities that have developed in response to their physical environment[1] and a common regional climate make up a biome (/ba.om/), a biogeographical unit. Various continents may have different biomes. A biome can include a number of environments because the phrase is more general than habitat.
A microbiome is a combination of organisms that coexist in a specific location on a much smaller scale than a biome, which can encompass enormous areas. The collection of bacteria, viruses, and other microbes found on or in human bodies is known as the human microbiome, for instance. The complete group of living things found in a place or time is called a "biota."
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2. Explain why most synthesis reactions are exothermic. What does this imply about the energy needed to break the reactant bonds compared to energy released when the product bonds form? Draw an energy level diagram that could represent a synthesis
reaction.
GIVING BRAINLIEST
Answer: Most synthesis reactions are exothermic because the energy needed to break the reactant bonds is typically less than the energy released when the product bonds form. In other words, the reactant bonds have a lower energy level than the product bonds, so when the reactant bonds are broken and the product bonds are formed, energy is released in the form of heat.
This can be represented by an energy level diagram, in which the reactant bonds are shown at a lower energy level than the product bonds. When the reactant bonds are broken and the product bonds are formed, the energy level of the reaction decreases, indicating that energy is released.
Overall, the fact that most synthesis reactions are exothermic implies that the energy needed to break the reactant bonds is typically less than the energy released when the product bonds form. This is reflected in the energy level diagram, where the reactant bonds are shown at a lower energy level than the product bonds.
Explanation:
Answer:
Synthesis reactions are typically exothermic because the products of the reaction have lower energy than the reactants. This means that the energy needed to break the bonds in the reactants is less than the energy released when the product bonds form.
An energy level diagram can help illustrate this concept. In a synthesis reaction, the reactants are represented by two energy levels on the left side of the diagram, and the products are represented by a lower energy level on the right side. The energy difference between the reactants and the products is represented by the vertical distance between the two sets of energy levels. Since the product energy level is lower than the reactant energy levels, the reaction releases energy and is exothermic.
Here is an example of an energy level diagram for a synthesis reaction:
In this diagram, the vertical distance between the reactant and product energy levels represents the energy released by the reaction. This energy is typically in the form of heat, which is why most synthesis reactions are exothermic.
How many nitrogen gas, hydrogen gas, and ammonia molecules would be needed in order for this chemical equation to follow the law of conservation of mass?
N2+H2 > NH3
1 nitrogen gas molecule, 1 hydrogen gas molecule, 1 ammonia molecule
1 nitrogen gas molecule, 1 hydrogen gas molecule, 2 ammonia molecules
1 nitrogen gas molecules, 3 hydrogen gas molecules, 2 ammonia molecules
2 nitrogen gas molecules, 3 hydrogen gas molecules, 2 ammonia molecules
N₂ + 3H₂ ⇒ 2NH₃ this is chemical equation to follow the law of conservation of mass. 1 nitrogen gas molecules, 3 hydrogen gas molecules, 2 ammonia molecules required. Therefore, option C is correct.
What is ammonia ?With the formula NH3, ammonia is a nitrogen and hydrogen inorganic chemical. Ammonia, the simplest pnictogen hydride and a stable binary hydride, is a colorless gas with a strong, pungent odor.
Ammonia produced by industry is used as fertilizer in agriculture to the tune of 80%. In addition to these uses, ammonia is made into polymers, explosives, textiles, insecticides, dyes, and other chemicals. It is also used to purify water sources.
1 nitrogen gas molecules, 3 hydrogen gas molecules, 2 ammonia molecules are needed in order for this chemical equation to follow the law of conservation of mass.
Thus, option C is correct.
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1- methoxy 1- propene
Answer:
it will have the following structure formula
C4H8O
Explanation:
Now the structure of C4H8O is as follows:
Identify the absolute configuration of the chirality centers in each of the following compounds as R or S. Note: if multiple chirality centers are present, indicate the stereochemical designations as: RR, SS, RS, or SR. (Other terms used for chirality center include chiral center, stereocenter, and stereogenic center.) CO2H CO2H OH OH
Absolute configuration describes the relative positions of each bond around the chiral center atom using a set of criteria.
The Cahn-Ingold-Prelog priority principles are used in the most common labeling approach, which uses the descriptors R or S. R and S stand for Rectus and Sinister, the Latin words for right and left, respectively. If the arrow points counterclockwise (left after leaving the 12 o'clock position), the stereocenter configuration is S ("Sinister" Latin for "left"). A chiral center is an atom (typically carbon) that is bound to four separate component groups. R and S are Latin terms that mean right and left, respectively, and are used to decide the label.
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make a list of information you must know in order to write the correct formula for an ionic compound (this list may require reviewing all of the activities so far).
The correct formula for an ionic compound is total charge of cations = total charge of anions.
Ionic compounds do not exist usually as molecules. In the solid state, the ionic compounds are in crystal lattice that is generally containing many ions among which each of the cation and anion. An ionic formula, such as like NaCl , is an empirical formula. This formula merely indicates that sodium chloride is made of an equal number of sodium and chloride ions. Sodium sulfide, another ionic compound, has the formula Na2S . This formula generally indicates that this compound is made up of twice as many sodium ions as sulfide ions. This section will teach you how to find the correct ratio of ions, so that we can write a correct formula.
If we know the name of a binary ionic compound, you can write its chemical formula. Start by writing the metal ion with its charge, followed by the nonmetal ion with its charge. Because the overall compound must be strictly electrically neutral, decide how many of each ion is needed in order for the positive and negative charges to cancel each other out.
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Select all that apply Which of the following options correctly describe the three temperature scales and their relationship to each other? Select all that apply. a. The Celsius and Fahrenheit scales have the same zero point. Absolute zero is OK or -273.15°C. b. Both the Kelvin and Celsius scales have the same size degree unit. c. All temperatures in the Kelvin scale (other than 0 K) are positive. d. A degree Celsius is the same size as a degree Fahrenheit.
b. Both the Kelvin and Celsius scales have the same size degree unit , option c and d correctly describe the three temperature scales and their relationship to each other
The Celsius scale, also recognised as the centigrade scale, is a thermal scale based on zero degrees Celsius for the freezing temperature and one hundred degrees Celsius for the water's boiling point. Anders Celsius, a Swedish physicist, astrophysicist, and engineer, invented (and is named after) this magnitude. The centigrade scale was decided to name after Swedish astrophysicist Anders Celsius (1701-1744), who proposed it in 1742. The family name is derived from the name of a estate, Latin celsus ("mound"). The Kelvin scale. A temperature scale that starts at zero (-273.15°C or -459.67°F). Each degree, or kelvin, symbolises one degree of temperature rise on the Celsius scale. Water freezes at 273.15 K and heats at 373.15 K on the Kelvin scale.
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the orbitals of a principal energy level are lower in energy than the orbitals in the next higher principal energy level.
A primary energy level's orbitals have less energy than that the orbitals of the principal energy level above it.
A principle energy level's orbitals have less energy than the orbitals of the principle energy level above it. Compared to the setup 3d5 4s1, the 3d2 4s2 configuration is more reliable. The same orbital may house up to 4 e-s.
Each major energy level has a single sublevel with an s orbital, which may hold up to two electrons. The lowest energy electrons in that primary energy level are those in this orbital, known as s electrons.
The electrons at an atom's highest occupied main energy level are known as valence electrons.
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Draw a Lewis structure for SO2 in which all atoms obey the octet rule. Show formal charges. Do not consider ringed structures.
Draw a Lewis structure for SO2 in which all atoms have a formal charge of zero. Explicitly showing the zero charges is optional. Do not consider ringed structures.
In SO2, both the oxygen atoms have same number of unshared and shared electrons. so they have formal charge of zero. this explains from the Lewis structure.
Lewis structure shows the bonding between atoms in a molecule and also shows lone pair of electrons present on the atoms. Charge on an atom without considering electronegativity differences is called as formal charge. Sulphur belongs to group 6A of the periodic table. Thus, Sulphur has 6 valance electrons atom is 6. Sulphur atom also has 6 valance electrons. Total number of valance electrons is 18. All the atoms in the molecule are connected with covalent bonds. Lone pairs of electrons are also added to each atom. Each atom of the molecule has octet. Both the oxygen atoms have same number of unshared and shared electrons. So, they have formal charge of zero. Thus, formal charges on all the atoms are zero.
Octet rule is a rule of thumb in determining where the valance electrons orient themselves or are shared. It implies that every element would want to fill its s and p orbitals in the valence electron shell.
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Which of the following represents an element in its most stable form at standard state? (Select all that apply.] O N (g) O C (diamond) O CO2 (g) O I2 (s) O Ge (s) O Pt (s) O O2 (g) O Na+ (s)
Element in its most stable form at standard state:
CO2(g) , I2(s) , Pt(s) , O2(g)
The maximum number of electrons that can be accommodated in the last shell or orbital is called a stable element. In the case of helium, the helium atom has only one shell. The maximum number of electrons that can be accommodated in the first shell is two. Therefore, the helium "two-electron" pattern system is stable. Most stable elements have an "octet electron configuration". Other examples are Neon (Ne), Argon (Ar), Krypton (Kr), Xenon (Xe) and Radon (Rn). These elements are chemically stable elements, so they usually do not react chemically. Floating objects that are denser than water, such as razor blades and insects, float on the surface of the water without being partially submerged.
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Starting with triphenylphosphine and any desired alkyl halide, plus any desired aldehyde or ketone, show how the following alkene can be prepared via a Wittig synthesis. You do not have to specify which base is used.
The target molecule is Alkene
By synthesis ( by witting reaction)
Witting reaction is a Carbon - Carbon bond forming reaction which provides a platform from aldehydes and ketones to alkenes and which is a valuable tool in organic synthesis.
The final product of the witting reaction when reacted with ketones or aldehydes with Triphenyl phosphonimum ylide will be Alkenes followed by Triphenyl - phosphine oxide.
Triphenylphosphine when reacts with 2-bromo propane
gives rise to a base
on reacting an ylide with betaine which gives rise to oxaphos - phetane
and then to our desired molecule ( Alkene) + Triphenyl - phosphine oxide as the product of our reaction.
Hence the starting compounds are as follows
Triphenyl - phosphine Alkyl halide AldehydeTo learn more about Witting reaction:
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the conversion of succinate to oxaloacetate during krebs cycle involves reduction, dehydration, reduction oxidation, hydration, oxidation oxidation, dehydration, oxidation reduction, hydration, reduction
During the Krebs cycle, succinate is converted to oxaloacetate through oxidation, hydration, and oxidation.
There were three processes involved in converting succinate to oxaloacetate. First, fumarate is produced by oxidising succinate. Oxidation is the result of the removal of hydrogen from succinate. These hydrogen are taken up by FAD, resulting in FADH2.
Hydration then follows. Malate is created by combining fumarate with water.
Malate is then subjected to oxidation by loosing hydrogen, which NAD takes up. Oxaloacetate is created when malate undergoes oxidation.
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The diagrams above represent two allotropes of solid phosphorus. Which of the following correctly identifies the allotrope with the higher melting point and explains why?
Allotrope I, because it has P4 molecules with covalent bonds that are stronger than dispersion forces between individual P atoms in allotrope II.
Allotrope II, because it has covalent bonds between the phosphorous atoms that are stronger than the dispersion forces between the P4 molecules in allotrope I.
Allotrope II, because it has metallic bonding that is stronger than the covalent bonding found in the P4 molecules in allotrope I.
Both allotropes have the same melting point because they both contain phosphorous atom
Allotrope 1 because it lacks the covalent bonds that are present in allotrope 2 between the phosphorus atoms. Allotrope 1 because it lacks the covalent bonds that are present in allotrope 2 between the phosphorus atoms.
Phosphorus exists in nature in a variety of allotropic forms. White phosphorus, black phosphorus, and red phosphorus are the three most significant allotropic forms of phosphorus. Study about the phosphorus allotropic forms and their characteristics.
Different forms of the element with variations in its molecular structure and organization are known as allotropes of solid phosphorus. Due to the lack of covalent connections between the phosphorus atoms in allotrope 1, it is more stable than allotrope 2 and has
higher melting point.
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Which of these is NOT correct?1. Kinases are enzymes that phosphorylate other molecules.2. Cyclic AMP binds to calmodulin.3. Ion channels are found on both the plasma membrane and the endoplasmic reticulum.4. Tyrosine-kinase receptors consist of two polypeptides that join when activated by a signal molecule.5. Phospholipase C catalyzes the formation of IP3.
False: Cyclic AMP binds to calmodulin Calcium binds to calmodulin is the appropriate response.
This protein-protein interaction ultimately has a physiological consequence; for instance, in smooth muscle, Ca2+ binding to calmodulin causes it to connect with and activate myosin light chain kinase, which in turn catalyses the phosphorylation of myosin. The smooth muscle contracts as a result of this reaction.
The protein calmodulin interacts with calcium ions as they enter a cell. Four calcium sites are present in this protein, and when three or four of these sites are occupied by calcium, the calmodulin changes form and starts a number of internal cell processes, such as the activation or inhibition of protein kinases.
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a reactant decomposes with a half-life of 193 s when its initial concentration is 0.203 m. when the initial concentration is 0.540 m, this same reactant decomposes with the same half-life of 193 s.
What is the order of the reaction?
What is the value and unit of the rate constant for this reaction?
The order of the reaction is 1
The value and unit of the rate constant for this reaction 5.92*10^-3 s^-1
Reaction order refers to the power dependence of rate on the concentration of each reactant. Therefore, for first-order reactions, the rate depends on the concentration of a single species.
1)
Here half life is independent of concentration.
So, it must be 1st order reaction
2)
Given:
Half life = 117 s
use relation between rate constant and half life of 1st order reaction
k = (ln 2) / k
k= 0.693/(half life)
k= 0.693/(117)
k= 5.92*10^-3 s-1
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When you go up into the mountains or fly high in an airplane, the air is
thinner and the pressure is lower. The air pressure at sea level at a
temperature of 59°F (15°C) is equal to one atmosphere (Atm), and this
is the baseline reading for determining relative pressure.
HOW DOES THIS FACT( SUB QUESTION) RELATE TO MY RESEARCH QUESTION WHICH IS
What effect does the amount of air pressure have on how far a soccer ball travels when kicked?
The fact that air pressure is lower at higher altitudes or in airplanes is relevant to your research question because it means that the amount of air pressure can affect how far a soccer ball travels when kicked. In general, the higher the air pressure, the more force the air exerts on the soccer ball, which can cause it to travel a greater distance. Conversely, the lower the air pressure, the less force the air exerts on the soccer ball, which can cause it to travel a shorter distance.
Therefore, if you were to conduct a study on how the amount of air pressure affects the distance a soccer ball travels when kicked, you would need to take into account the fact that air pressure is lower at higher altitudes or in airplanes. This could be done by measuring the air pressure at the location where the soccer ball is kicked, and comparing it to the baseline air pressure at sea level to determine the relative air pressure. You could then use this information to calculate the expected distance the soccer ball should travel based on the amount of air pressure present. This would help ensure that your results are accurate and can be compared to other studies on this topic.
arrange the following in order of increasing radius and increasing ionization energy?
The ionization energy grows from left to right during the course of a period and drops from top to bottom in groups. As a result, helium has the highest initial ionization energy whereas francium has one of the lowest.
Why is ionization necessary?We utilize ionizing radiation on a daily basis to keep ourselves healthy. Smoke detectors emit ionizing radiation, which is also employed in many other aspects of daily life, including the sterilization of blood and medical equipment. It is a byproduct of the nuclear power industry as well.
What kind of energy is ionization?The amount of energy required for an isolated, gaseous atom to discharge one electron, creating a cation, is known as the ionization energy. Typically, kJ/mol is used to express this energy.
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How to convert butane to 2 butano?
Answer:
Explanation: Butane can be converted to 2-butano through a process called isomerization. Isomerization is a chemical reaction in which a compound is converted into one of its structural isomers, which are molecules with the same chemical formula but different arrangement of atoms.
To convert butane to 2-butano, one common approach is to use a catalyst such as a metal or metal oxide to facilitate the rearrangement of the atoms in the molecule. This process typically involves heating the butane to a high temperature (around 200-300°C) in the presence of the catalyst, which promotes the isomerization reaction. Other conditions such as pressure and the presence of a solvent may also be used to control the reaction.
It's important to note that this process typically has a low yield, meaning that only a small fraction of the starting butane is converted to 2-butano. As a result, additional purification steps may be needed to separate the 2-butano from the other products of the reaction.
A 1.8 g sample of oleic acid (C18H34O2), a common constituent of fats, is burned in a bomb calorimeter. The temperature of the calorimeter increases by 35.8oC (Celsius). Given that the energy of combustion (∆E) for oleic is -39.4 kJ/g, calculate the heat capacity of the bomb calorimeter. Make sure you enter kJ/C for your unit behind the number.
heat capacity of the calorimeter =
Specific heat of Calorimeter is 1.98kg/z in a 1.8 g sample of oleic acid (C18H34O2), a common constituent of fats, is burned in a bomb calorimeter. The temperature of the calorimeter increases by 35.8oC (Celsius).
The quantity of heat energy required to increase the temperature of a specified amount of issue by one degree Celsius is defined as heat capacity. Heat capacity for just a given subject matter is determined by its size or quantity, trying to make it a broad property. Heat capacity is expressed in joules per Kelvin or degrees Celsius. (Also known as thermal capacity.) The ratio of power generation or specific heat absorbed (or released) by a scheme to temperature rise (or fall). Heat capacities are specified for specific processes.Specific heat capacity is measured in joules per kelvin per kilogramme (J/kgK), JK1kg1. Because a temperature increase of one degree Celsius equals a temperature increase of one kelvin, the joule per degree Celsius per kilogramme is J/(kg°C).
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match the intermolecular force of attraction with the stabilized attribute of the double helix of dna. exterior sugar-phosphate groups exterior sugar-phosphate groups drop zone empty. stacked n-containing bases stacked n-containing bases drop zone empty. coupled complementary bases on each side of the double helix chain
Intermolecular forces that help to stabilize a DNA double helix:
Dispersion forces (in the interior bases stack and interact through dispersion forces).Ion-dipole forces (The polar exterior interacts with its aqueous environment through ion-dipole forces and hydrogen bonds).Hydrogen bonds (Bases form sequences of specific interchain hydrogen bonds and the polar exterior forms hydrogen bonds with its aqueous environment).DNA consists of two strands aligned antiparallel to each other, connected by many hydrogen bonds between bases on opposite strands. It is these highly specific intermolecular interactions that allow DNA to be read and written based on complementary interactions. Although individual hydrogen bonds are much weaker than covalent bonds.
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write chemical equations for the five sn2 substitution reactions that you performed in part 1 of this lab. arrange the five substrates in increasing order of reactivity and provide suitable explanations for your answer
in this answer, we will be talking about the SN2 mechanism of nucleophilic substitution reactions. As an introduction to nucleophilic substitutions, these are reactions where the nucleophile replaces the leaving group.
The species that attack with a lone pair and expels the leaving group is the Nucleophile (electron-rich, like a nucleus since it is positively charged).
The leaving group (LG) is kicked out by the nucleophile. The molecule with the leaving group is generally classified as the Substrate (molecule of interest)
The substrate in substitution reactions is the Electrophile (electron-deficient)
K is the counterion. Counterions are often omitted since they are not part of the organic product and do not make influence on the course of the reaction
These reactions are divided into two main types: One, in which the nucleophilic attack and the loss of the leaving group happen at the same time, and the second time, in which the loss of the leaving group happens before the nucleophile can attack the reaction.
When everything happens simultaneously, it is called a concerted mechanism of the reaction. This is the SN2 mechanism.
When the processes happen one after the other, one by one, it is a stepwise mechanism – the SN1 mechanism.
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which of the following statements is true? which of the following statements is true? intermolecular forces are generally stronger than bonding forces. increasing the pressure on a solid usually causes it to become a liquid. the potential energy of molecules decrease as they get closer to one another. energy is given off when the attraction between two molecules is broken. none of the above are true.
The correct answer is b). The potential energy of molecules decreases as they get closer to one another.
This is true because molecules are attracted to one another by intermolecular forces, which are weaker than chemical bonds. As molecules come closer together, the intermolecular forces increase in strength, and this increase in strength is greater than the decrease in potential energy.
Therefore, the total potential energy of the molecules decreases as they get closer together. This is in contrast to a and d, which are false. Increasing pressure on a solid does not usually cause it to become a liquid, and intermolecular forces are generally weaker than bonding forces.
In c, energy is not given off when the attraction between two molecules is broken, but instead when bonds are broken.
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HELPP how many moles are there in each of the following??? Please this assignment is due today
atleast do one problem if you can
a) 0.998 moles.
b) 0.498 moles.
c) 1.6264 × 10³ moles
d) 2.64 × 10⁻¹³ moles
What is no. of moles?The mole is a unit of measurement or the starting point for determining the concentration of a chemical in a sample. Avogadro's constant, or 1 mole, is a quantity that is equal to 6.023 x 10²³ particles. Any species, such as atoms, molecules, electrons, protons, neutrons, etc., can make up these particles.
a)
As we know,
6.023 × 10²³ molecules of He = 1 mole
so, 6.013 × 10²³ molecules of He = (1/6.023 × 10²³) × (6.013 × 10²³)
= 0.998 moles.
b)
As we know,
6.023 × 10²³ molecules of Mg = 1 mole
so, 3.003 × 10²³ molecules of Mg = (1/6.023 × 10²³) × (3.003 × 10²³)
= 0.498 moles.
c)
Given that,
Mass (m) = 3.37 × 10⁵ gm
Molar mass of Pb (M) = 207.2
now, n = m/M
or, n = (3.37 × 10⁵) / 207.2
or, n = 1.6264 × 10³ moles
d)
Given that,
Mass (m) =4.23 × 10⁻¹² gm
Molar mass of O (M) = 15.999
now, n = m/M
or, n = (4.23 × 10⁻¹²) / 15.999
or, n = 2.64 × 10⁻¹³ moles.
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CO(g) + 2 H2(g) <--> CH3OH(g)DH < 0The synthesis of CH3OH(g) from CO(g) and H2(g) is represented by the equation above. The value of Kc for the reaction at 483 K is 14.5.Which of the following explains the effect on the equilibrium constant, Kc , when the temperature of the reaction system is increased to 650 K?
According to how long it takes the block n to reach equilibrium, sort the scenarios. 26 is the equilibrium constant.
First, use an ICE table to write the balanced chemical equation.
2H2(g) + CO(g) = CH3OH (g)
I/mol/L: 0.500, 0.100, and 0 C/mol/L: -2, -2, and + x
E/mol L-1: 0.5 - x; 0. 0 - 2 x; x
[CO] = 0.15 mol/L = (0.500 - x) mol/L at equilibrium.
So \sx \s = 0.500 – 0.15 = 0.35Consequently, [ H 2 ] = (0.100 - 2 x) mol/L equals (0.100 - 0.25 mol/L) mol/L equals 0.30 mol/L
and
[CH 3 OH ] = 0.35 mol/L for x mol/L of CH 3 OH.
K \seq \s= \s[ \SCH \s3 \SOH \s]
[ \SCO \s]
[ \SH \s2 \s]
2 \s= \s0.35 \s0.15 \s× \s0.30 \s2 \s = 26
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