The kilograms of the nickel be added to the 5.66 kg of the copper to yield the liquidus temperature of 1200 °C is 2.42 kg.
The liquidus temperature = 1200 °C
The mass of the copper = 5.66 kg
The mass of the nickel = (mass of the copper) × (% of the nickel needed - % of nickel in the copper) / (% of nickel in the nickel - % of nickel in copper)
The mass of the nickel = (5.66 kg) × (30% - 0%) / (30% - 100%)
The mass of the nickel = (5.66 kg) × (0.3) / (-0.7)
The mass of the nickel = 2.42 kg
Thus, the mass of the nickel is 2.42 kg.
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24. What is a commercial application of benzoic acid?
Commercial Applications of benzoic acid : as food preservative , medicine industry, pharmaceuticals .
Applications of benzoic acid in details :
Benzoic acid is commonly used as a food preservative due to its ability to inhibit the growth of bacteria, yeasts, and molds.
It is also used in the production of various chemicals such as phenol, benzoyl chloride, and sodium benzoate. Benzoic acid is used in pharmaceuticals.
It is used as a preservative in drugs. It is also present in baby products, skin products, cleansing products, hair and nail products, soaps, bath products, detergents etc.
Additionally, benzoic acid is used in the manufacturing of pharmaceuticals, cosmetics, and plastics.
Its antiseptic and antifungal properties also make it useful in the treatment of skin infections. It is used as an antifungal for treating diseases like ringworm and athlete’s foot. It is excreted as hippuric acid after conjugation with glycine in the liver. The excreted hippuric acid is not highly toxic. It is used in the treatment of skin irritation caused by insect bites, burns etc.
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In order for a liq-liq extraction to be successful, an appropriate extraction solvent must be chosen. What are the two most important characteristics of a good extraction solvent? Explain.
Thus not only should the solvent be selective for the solute being extracted but it should also possess other desirable features such as low cost, low solubility in the feed-phase and good recoverability as well as being noncorrosive and noninflammable.
Buffer A is a better physiological buffer because its pK is closer to bloods pH of 7.4 than the pK of buffer B. Two physiological buffers are being studied. Buffer A has a pK = 7.2 and buffer B has a pK of 7.9.Which is the better buffer and why?
Based on the given information, buffer A is a better physiological buffer than buffer B because its pK is closer to the pH of blood, which is 7.4.
How does Buffer work? A buffer works by maintaining a stable pH level by accepting or donating hydrogen ions. The pK value is a measure of the acidity of a solution and indicates the concentration of hydrogen ions needed to make the solution acidic or basic. The closer the pK value is to the pH of the solution, the more effective the buffer is in maintaining a stable pH. In this case, buffer A's pK value of 7.2 is closer to the pH of blood than buffer B's pK value of 7.9, making it a more effective buffer. Therefore, buffer A would be preferred as a physiological buffer over buffer B.
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After extraction you have an organic and an aqueous layer. Describe how you will recover the solutes from each layer.
The recovery of solutes from each layer depends on the nature of the solutes and the solvent used for the extraction. Proper selection of the extraction method and appropriate recovery steps are necessary to achieve optimal recovery and purity of the solutes.
After extraction, the solutes are partitioned between the organic and aqueous layers. To recover the solutes from each layer, different methods can be used.
For the organic layer, the solutes can be recovered by evaporating the solvent or by adding a suitable reagent that will react with the solutes and form a precipitate. Once the solutes have been recovered, they can be further purified if necessary.
For the aqueous layer, the solutes can be recovered by adjusting the pH and adding salt or a solvent that will extract the solutes from the aqueous layer into the organic layer. Alternatively, the solutes can be recovered by using a solid phase extraction (SPE) column, which selectively adsorbs the solutes from the aqueous layer onto a solid support.
To recover the solutes from the organic and aqueous layers after extraction, follow these steps:
1. Separate the layers: Using a separatory funnel, carefully separate the organic layer and the aqueous layer into two distinct containers.
2. Recover solutes from the organic layer: Evaporate or distill the organic solvent to isolate the solute, leaving behind a solid or concentrated solution of the solute.
3. Recover solutes from the aqueous layer: Perform a crystallization or evaporation process to remove the water, yielding a solid or concentrated solution of the solute.
By following these steps, you can efficiently recover the solutes from both the organic and aqueous layers after extraction.
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What binds to an anion exchange colomn
An anion exchange column binds to negatively charged ions or anions. This can include ions such as chloride (Cl-), sulfate (SO42-), and phosphate (PO43-). It is a type of chromatography column that binds negatively charged ions, or anions. In an anion exchange column, the stationary phase consists of positively charged functional groups, which attract and bind to the anions present in the sample.
The column is designed to attract and retain these anions, while allowing other molecules or ions to pass through. This property makes anion exchange columns useful for purifying or separating molecules that contain negatively charged functional groups, such as proteins or nucleic acids.
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How does an uncompetitive inhibitor impact Km?
Answer: In noncompetitive inhibition, the affinity of the enzyme for its substrate (Km) remains unchanged as the active site is not competed for by the inhibitor.
Km can also be interpreted as an inverse measurement of the enzyme-substrate affinity.
Calculate the amount of heat (in kJ) necessary to raise the temperature of 47.8 g benzene by 57.0 K. The specific heat capacity of benzene is 1.05 J/g°C
It takes 2.79669 kJ of heat to raise the temperature of 47.8 g of benzene by 57.0 K.
To calculate the amount of heat necessary to raise the temperature of benzene, we can use the formula:
Q = m * c * ΔT
where Q is the amount of heat, m is the mass of benzene, c is the specific heat capacity of benzene, and ΔT is the change in temperature.
Substituting the given values, we get:
Q = 47.8 g * 1.05 J/g°C * 57.0 K
Q = 2796.69 J
To convert J to kJ, we divide by 1000:
Q = 2.79669 kJ
Therefore, it takes 2.79669 kJ of heat to raise the temperature of 47.8 g of benzene by 57.0 K.
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ch 14 consider the reaction of A to form B
2A <--> B. Kc= 1.8 x 10^-5 at 298K.
a reaction mixture at 298 initially contains [A]=.50M. what is the concentration of B when the reaction reaches equilibrium?
a. 9.0 x 10^-6
b. .060
c..030
d. 4.5 x 10^-6
The balanced equation for the given reaction is 2A <--> B. The answer is option d.
The equilibrium constant expression for this reaction can be written as:
[tex]Kc = [B]/[A]^2[/tex]
Where [B] is the equilibrium concentration of B and [A] is the initial concentration of A. As we know:
Given: Kc = [tex]1.8 * 10^{-5}, [A][/tex] = 0.50 M
At equilibrium, let the concentration of B be x M.
Using the equilibrium constant expression and the given values, we get:
[tex]Kc = [B]/[A]^2[/tex]. using this now we get:
1.8 * 10^-5 = * /[tex](0.50)^2[/tex]
x = 1.8 * [tex]10^{-5[/tex]* [tex](0.50)^2[/tex]
x = 4.5 * [tex]10^{-6} M[/tex]
Therefore, we can conclude that the concentration of B at equilibrium is[tex]4.5 * 10^-6 M[/tex]. And also the correct answer is option (d).
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What is the pH of a saturated solution of Mg(OH)2? Ksp = 1.8 × 10-11.
The pH of a saturated solution of Mg(OH)2 is approximately 10.8. This means that the solution is slightly basic or alkaline in nature.
The pH of a saturated solution of Mg(OH)2 can be calculated by using the equation for the dissociation of the compound in water. Mg(OH)2 dissociates into one Mg2+ ion and two OH- ions. The concentration of Mg2+ ions in the solution is twice that of the OH- ions since there are two OH- ions for every Mg2+ ion.
The Ksp value of the compound is given as 1.8 x 10-11. The pH of the solution can be calculated by using the expression for the ion product constant, which is the product of the concentration of Mg2+ and OH- ions in the solution.
Since the concentration of OH- ions in the solution is twice that of the Mg2+ ions, the pH of the solution can be calculated using the equation: pH = 14 - 1/2log(Ksp).
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7) Name the major organic product which results when 3-ethylbenzenesulfonic acid is heated in aqueous acid
The major organic product that results when 3-ethylbenzenesulfonic acid is heated in aqueous acid is 3-ethylbenzene. Here's a step-by-step explanation:
Step:1. 3-ethylbenzenesulfonic acid is an organic compound containing a benzene ring with an ethyl group (C2H5) and a sulfonic acid group (SO3H) attached to it.
Step;2. When 3-ethylbenzenesulfonic acid is heated in aqueous acid, the sulfonic acid group undergoes desulfonation, a process in which the SO3H group is removed and replaced with a hydrogen atom.
Step:3. This reaction results in the formation of 3-ethylbenzene, which is the major organic product in this case.
The reaction can be represented by the following equation:3-ethylbenzenesulfonic acid + H2O → 1-ethyl-1,2-dihydronaphthalene + H2SO4Overall, the reaction results in the conversion of a sulfonic acid group to an alkene, which is a useful transformation in organic synthesis.
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Give the formulae of the compounds formed from the following sets of elements :1) oxygen2) chlorine3) neon4) calcium5) iodine6) hydrogen"
So, the compounds formed from the given set of elements are [tex]H_{2}O[/tex], ICl, and no compound for neon and calcium.
How to make compounds from elements?Assuming we form compounds using the following pairs: 1) oxygen and hydrogen, 2) chlorine and iodine, 3) neon and calcium, I can provide the following formulae:
1) Oxygen and hydrogen: When oxygen (O) and hydrogen (H) form a compound, they create water ([tex]H_{2}O[/tex]). The formula for this compound is [tex]H_{2}O[/tex].
2) Chlorine and iodine: When chlorine (Cl) and iodine (I) form a compound, they create iodine monochloride (ICl). The formula for this compound is ICl.
3) Neon and calcium: Neon (Ne) is a noble gas and does not form compounds under normal conditions. Calcium (Ca) typically forms compounds with non-metals, such as oxygen or halogens. Thus, there is no compound formed between neon and calcium.
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a tank contains a mixture of helium, neon, and argon gases. if the total pressure in the tank is 490 mmhg and the partial pressures of helium and argon are 215 mmhg and 102 mmhg, respectively, what is the partial pressure of neon?
The partial pressure of neon in the mixture is 173 mmHg.
To find the partial pressure of neon, we need to use the fact that the sum of the partial pressures of all the gases in the mixture is equal to the total pressure of the system.
Let P_neon be the partial pressure of neon. Then we can write:
P_total = P_helium + P_neon + P_argon
Substituting the given values, we get:
490 mmHg = 215 mmHg + P_neon + 102 mmHg
Simplifying this equation, we get:
P_neon = 490 mmHg - 215 mmHg - 102 mmHg = 173 mmHg
Partial pressure is the pressure that a gas contributes to the total pressure of a mixture of gases. In a mixture of gases, each gas exerts a pressure that is proportional to its concentration (in terms of moles or volume) and its temperature.
The partial pressure of a gas can be calculated by multiplying its concentration (in moles or volume) by the total pressure of the mixture and dividing it by the total concentration (in moles or volume) of all gases in the mixture.
The concept of partial pressure is particularly important in the study of gases, especially in relation to the behavior of gases in chemical reactions, as it helps to determine the direction and extent of the reaction.
For example, in the ideal gas law, the partial pressure of a gas can be used to calculate its volume, temperature, and number of moles in a mixture.
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The densities of a coinage metals (copper,silver, and gold) are as follows: copper = 8.95 g/mLsilver = 12.59 g/mLgold = 19.32 g/mL Calculate the density of mass = 33.03 g and volume = 2.624 mL, and identify the metal.
The calculated density (12.58 g/mL) is very close to the density of silver (12.59 g/mL). Therefore, the metal is likely to be silver.
To calculate the density of the metal with mass = 33.03 g and volume = 2.624 mL, you can use the formula:
Density = Mass / Volume
Step 1: Plug in the given values into the formula:
Density = 33.03 g / 2.624 mL
Step 2: Calculate the density:
Density ≈ 12.58 g/mL
Now, compare the calculated density with the given densities of the coinage metals:
- Copper = 8.95 g/mL
- Silver = 12.59 g/mL
- Gold = 19.32 g/mL
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why is it important to know gas properties at stp? select all that apply: because comparison of properties is possible only if the properties are reported against a standard temperature and pressure. gases can only react at stp. gases must be stored at stp. in order to know that exactly one mole of an ideal gas has a volume of 22.4l.
It is important to know gas properties at standard temperature and pressure since comparison of properties is possible only if the properties are reported against a STP and in order to know that exactly one mole of an ideal gas has a volume of 22.4 l.
Standard temperature and pressure are defined as a standard set of conditions required for experimental measurements which are established to allow comparison between different sets of data.
Standards which are commonly used are those International Union of pure and applied chemistry and national institute of standards and technology.It is useful in determination of one mole of a gas.
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As a bicyclist pedals up a hill to the finish line of a race andʺfeels the burnʺin his leg muscles,those muscle cells are most likely utilizingA) only cellular respiration for maximum ATP production.B) only oxygen for maximum ATP production.C) both cellular respiration and oxygen for maximum ATP productionD) some lactate fermentation and lactic starting to build up in his muscle tissue causing a cramp
As bicyclist pedals up the hill to the finish line of the race and it feels the burn in the leg muscles, those muscle cells that are most likely utilizing is the only cellular respiration for the maximum ATP production. The correct option is A.
The cellular respiration is the process where the chemical reactions takes place which will break down the glucose and to produce the ATP, this may be used as the energy which will power the many reactions occurring throughout the body.
The three main steps for the cellular respiration are the glycolysis, and the citric acid cycle, and the oxidative phosphorylation. The option A is correct.
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explain what the partial charges and bond character button display. use complete sentences to answer. (
The "Partial Charges" button displays the partial charges on the atoms in the molecule, while the "Bond Character" button displays the type of bond between the atoms in the molecule.
Partial charges are a measure of the distribution of electrons in a molecule, and they are assigned based on the electronegativity of the atoms involved in the bonds.
Electronegativity is a measure of an atom's ability to attract electrons toward itself in a covalent bond.
In a molecule, atoms with higher electronegativity tend to have a partial negative charge, while atoms with lower electronegativity tend to have a partial positive charge.
The magnitude of the partial charges depends on the difference in electronegativity between the atoms involved in the bond.
The "Bond Character" button displays the type of bond between the atoms in the molecule. Bonds can be classified as either covalent, polar covalent, or ionic, depending on the difference in electronegativity between the atoms involved in the bond.
A covalent bond is formed when two atoms share electrons equally, whereas a polar covalent bond is formed when two atoms share electrons unequally, resulting in partial charges on the atoms involved in the bond.
An ionic bond is formed when electrons are completely transferred from one atom to another, resulting in the formation of ions with opposite charges.
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____________ is a polyacrylamide gel electrophoresis method for proteins that occurs under denaturing conditions to separate proteins by mass
SDS-PAGE is a polyacrylamide gel electrophoresis method for proteins that occurs under denaturing conditions to separate proteins by mass
SDS-PAGE (sodium dodecyl sulfate-polyacrylamide gel electrophoresis) is a widely used technique to separate proteins based on their molecular weight. The method is carried out under denaturing conditions to unfold and linearize the protein molecules, and then separate them based on their size.
In SDS-PAGE, the sample of proteins is first mixed with a buffer containing SDS, a strong anionic detergent that denatures the proteins and coats them with a negative charge proportional to their mass. The sample is then heated to further denature the proteins and break down any secondary and tertiary structures. The SDS-bound proteins are now uniformly negatively charged, and can be separated by size using a polyacrylamide gel.
The polyacrylamide gel acts as a molecular sieve, with smaller proteins migrating more quickly through the gel than larger ones. The gel is formed by polymerizing acrylamide and crosslinking agents to form a three-dimensional network of pores that create a size-dependent resistance to the migration of the negatively charged protein molecules. A voltage gradient is applied across the gel, causing the proteins to migrate towards the positive electrode. The separation is based on the principle that the mobility of a protein is inversely proportional to its size.
After separation, the proteins are visualized by staining with a protein-specific dye, such as Coomassie Brilliant Blue, or transferred to a membrane for detection by Western blotting. The resulting protein bands can be quantified and analyzed to identify and characterize the proteins present in the sample.
Overall, SDS-PAGE is a powerful and versatile tool for protein analysis, widely used in research and diagnostic laboratories for a variety of applications, including protein purification, protein quantification, and protein identification.
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Why can't you repeat recrystallization multiple times?
Recrystallization is a technique used to purify solid compounds. The process involves dissolving the impure compound in a hot solvent and allowing it to cool, leading to the formation of pure crystals.
However, repeating the recrystallization process multiple times can be detrimental to the purity of the compound. This is because every time the impure compound is dissolved in a solvent, a small amount of the compound will remain in the solvent.
The solvent used in the recrystallization process is not 100% pure, and therefore, the impurities that remain in the solvent will be introduced into the purified crystals. As a result, repeating the recrystallization process multiple times will lead to a decrease in the purity of the compound rather than an increase.
Therefore, it is recommended to limit the number of recrystallizations to two or three at most to obtain a high purity of the compound.
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The major source of radon in houses in the United States isfurniture and carpetsthe underlying bedrockthe tropospherenuclear power plantsfossil-fuel combustion
The major source of radon in houses in the United States is from the underlying bedrock, not from furniture or carpet. Fuel combustion may also contribute.
The significant wellspring of radon in houses in the US is the hidden bedrock. Radon is a radioactive gas that is delivered normally in the World's outside, and it can saturate structures through breaks and holes in the establishment.
This is especially normal in regions with stone or different sorts of rock that have a high centralization of uranium. Furniture and rugs are not huge wellsprings of radon, nor is the lower atmosphere.
Thermal energy stations really do deliver modest quantities of radon, however this is definitely not a significant wellspring of openness for the vast majority. Petroleum product ignition can likewise deliver radon, however this is certainly not a significant wellspring of openness in the US.
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30) Write the formula for the compound formed between rubidium and sulfur.A) RbSB) RbS2C) Rb2SD) Rb2SO3E) Rb3S2
The formula for the compound formed between rubidium (Rb) and sulfur (S) is Rb2S. So, the correct answer is C) Rb2S.
This is because rubidium has a +1 charge, and sulfur has a -2 charge. To balance the charges, you need two rubidium atoms for every sulfur atom. So, the correct answer is C) Rb2S.
Chemical compounds are formed when elements combine with each other by exchanging or sharing electrons.
In the case of rubidium and sulfur, rubidium is an alkali metal that readily loses its single valence electron to achieve a stable electron configuration, and sulfur is a non-metal that tends to gain two electrons to form a stable octet.
When rubidium (Rb) reacts with sulfur (S), the electron transfer results in the formation of an ionic compound, where rubidium forms a cation (+1 charge) and sulfur forms an anion (-2 charge).
To balance the charges in the compound, the number of cations and anions must be equal, and the total positive charge must equal the total negative charge.
In this case, since rubidium has a +1 charge and sulfur has a -2 charge, two rubidium atoms are required to balance the charge of one sulfur atom. Therefore, the correct formula for the compound formed between rubidium and sulfur is Rb2S, as it contains two Rb+ ions for every S2- ion.
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where are nonmetals found in the periodic table?
a) right side
b) left side
c) top half
d) bottom half
Nonmetals are found in the periodic table on the right side (Option A).
Nonmetals are the elements which form negative ions by accepting or gaining electrons. Non-metals usually have 4, 5, 6 or 7 electrons in their outermost shell. Characteristic properties of nonmetals are high ionization energies and high electronegativity. Owing to these properties, non-metals usually gain electrons when react with other compounds, forming covalent bonds. Nonmetals are generally located in Groups 14-18, with the exception of hydrogen, which is found in Group 1.
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What is the correct electron configuration of the ion formed by sulfur?a. [Ne]3s 23p 5b. [Ne]3s 23p 4c. [Ar]d. [Ne]
The correct electron configuration of the ion formed by sulfur is [Ne]3s²3p⁶. The answer is a.
Sulfur has an atomic number of 16, which means a neutral sulfur atom has 16 electrons distributed in its electron shells. The electron configuration of a neutral sulfur atom is [Ne]3s²3p⁴, indicating that there are two electrons in the 3s subshell and four electrons in the 3p subshell.
When sulfur forms an ion, it typically gains two electrons to achieve a stable octet configuration, forming the S²⁻ ion. The addition of two electrons to the 3p subshell results in the electron configuration of [Ne]3s²3p⁶ for the S²⁻ ion.
It is important to note that the electron configuration of an ion reflects the number and arrangement of electrons in the ion's valence shell, which can differ from that of the neutral atom.
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If you change the solution volume but keep the solute amount the same what happens to the Molarity?
Answer:
If you increase the solution volume but keep the solute amount the same, the molarity will decrease.
If you decrease the solution volume but keep the solute amount the same, the molarity will increase.
If you change the solution volume but keep the solute amount the same, the molarity will change inversely.
What is a common non-repetitive irregularity found in anti-parallel beta sheets? where does it occur?
A common non-repetitive irregularity found in anti-parallel beta sheets is known as a beta bulge. It occurs when there is a local distortion in the beta-sheet caused by a small number of amino acid residues that deviate from the normal hydrogen bonding pattern.
This deviation causes a slight kink or bends in the beta sheet, resulting in a bulge in the structure. Beta bulges are often caused by the presence of amino acids with bulky side chains or those that cannot form hydrogen bonds as expected.
They are found in various proteins, including enzymes and structural proteins, and can have functional implications. For example, beta bulges can help to stabilize protein structures, create binding sites for ligands or substrates, or facilitate protein-protein interactions.
The study of beta bulges is important in understanding protein structure and function, and their role in disease states.
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19) Calculate the molar mass of Ca3(PO4)2.A) 87.05 g/molB) 215.21 g/molC) 310.18 g/molD) 279.21 g/molE) 246.18 g/mol
The molar mass of Ca3(PO4)2 is 310.18 g/mol, which corresponds to option C.
Hi! To calculate the molar mass of Ca3(PO4)2, you need to consider the molar masses of the elements present and their proportions in the compound. Here's a step-by-step explanation:
1. Identify the elements present in the compound: Calcium (Ca), Phosphorus (P), and Oxygen (O).
2. Determine the molar masses of these elements: Ca = 40.08 g/mol, P = 30.97 g/mol, and O = 16.00 g/mol.
3. Calculate the molar mass of the compound:
- For Calcium (Ca): 3 × 40.08 g/mol = 120.24 g/mol
- For Phosphorus (P): 2 × 30.97 g/mol = 61.94 g/mol
- For Oxygen (O): 8 × 16.00 g/mol = 128.00 g/mol
4. Add the molar masses together: 120.24 g/mol + 61.94 g/mol + 128.00 g/mol = 310.18 g/mol
So, the molar mass of Ca3(PO4)2 is 310.18 g/mol, which corresponds to option C.
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The atomic radius of a nitrogen atom is 70 pm. What is the distance between the nuclei of two bonded nitrogen atoms in a N(2) molecule?
The distance between the nuclei of two bonded nitrogen atoms in a N(2) molecule is double the atomic radius of a nitrogen atom, which is 140 pm.
This is because when two nitrogen atoms bond together to form a N(2) molecule, they share a pair of electrons between them to form a covalent bond. This covalent bond brings the two nitrogen atoms closer to each other, reducing the distance between their nuclei.
In a N(2) molecule, the two nitrogen atoms are bonded together by a triple bond. The bond length of this triple bond is around 109.76 pm, which is shorter than the bond length of a double bond (around 120 pm) or a single bond (around 140 pm) between two nitrogen atoms.
The shorter bond length of a triple bond is due to the stronger attraction between the two atoms, which results in a tighter bond.
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The Curiosity Rover on the surface of Mars recently measured a daily low temperature of -65.19 degrees C. What is implied range of the actual temperature?
The implied range of the actual temperature on Mars is approximately between -65.19 degrees Celsius (daily low) and -15.19 degrees Celsius (estimated daily high).
To determine the implied range of the actual temperature on Mars with the given daily low of -65.19 degrees Celsius, we can consider the possible daily temperature fluctuations.
Step 1: Identify the given temperature
The Curiosity Rover measured a daily low temperature of -65.19 degrees C.
Step 2: Estimate the possible range of temperature fluctuation
On Mars, the temperature can vary greatly, with fluctuations of about 50 degrees Celsius between the daily low and high.
Step 3: Calculate the implied range of the actual temperature
To find the possible high temperature, add the estimated fluctuation (50 degrees) to the given low temperature (-65.19 degrees):
-65.19 + 50 = -15.19 degrees Celsius
Thus, the implied range of the actual temperature on Mars is approximately between -65.19 degrees Celsius (daily low) and -15.19 degrees Celsius (estimated daily high).
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Why do we call alpha-D-glucose alpha-D-glucopyranose?
We call alpha-D-glucose alpha-D-glucopyranose because it is a glucose molecule with a specific stereochemistry (alpha and D), and it forms a six-membered pyranose ring structure.
Explain on alpha-D-glucose structure.
Alpha-D-glucose refers to the specific stereochemistry of the glucose molecule. The "D" designation comes from the spatial orientation of the hydroxyl group (-OH) on the penultimate carbon of the molecule, which is on the right side when drawn in the Fischer projection. The "alpha" indicates that the anomeric hydroxyl group (attached to the first carbon) is below the ring when represented in the Haworth projection.
The term "glucopyranose" is derived from two parts: "gluco" refers to the sugar glucose, and "pyranose" indicates that the molecule forms a six-membered ring structure resembling a pyran (a six-membered ring containing five carbon atoms and one oxygen atom). When glucose forms this cyclic structure, it is specifically called a "glucopyranose" ring.
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21) The molecular weight of urea ((NH2)2CO), a compound used as a nitrogen fertilizer, is ________ amu (rounded to one decimal place).A) 44.0B) 43.0C) 60.1D) 8.0E) 32.0
The molecular weight of urea ((NH2)2CO), a compound used as a nitrogen fertilizer, is 60.1 amu.
The correct option is :- C
Urea consists of:
2 Nitrogen (N) atoms: each with an atomic weight of 14.0 amu
4 Hydrogen (H) atoms: each with an atomic weight of 1.0 amu
1 Carbon (C) atom: with an atomic weight of 12.0 amu
1 Oxygen (O) atom: with an atomic weight of 16.0 amu
Step-by-step calculation:
The weight of Nitrogen atoms: 2 x 14.0 = 28.0 amu
The weight of Hydrogen atoms: 4 x 1.0 = 4.0 amu
The weights of Carbon and Oxygen atoms: 12.0 + 16.0 = 28.0 amu
Sum the weights of all elements: 28.0 (N) + 4.0 (H) + 28.0 (C+O) = 60.0 amu
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a chemist determines that a sample contains 0.15ug of U-235 and that the sample has undergone two half lives how much U-235 was there originally, before the same decayed?
The sample contains 0.15 μg of Uranium-235 and has undergone two half-lives, then the original amount of Uranium-235 would have been 0.6 μg.
The half-life of U-235 is 7.04 × 10⁸ years.
The amount remaining can be calculated using the formula:
Amount remaining = Original Amount × (1/2)^(number of half-lives)
We know that the sample contains 0.15ug of U-235 and has undergone two half-lives. Let’s call the original amount of U-235 “X”. Then we can write:
0.15ug = X × (1/2)²
Solving for X gives us:
X = 0.15ug / (1/4) = 0.6ug
Therefore, there was 0.6ug of U-235 originally before it decayed.
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