A trisubstituted cyclohexane compound is given below in its chair conformation. Draw the corresponding planar (overhead) representation, using wedge-and-dash bonds to indicate the substituent positions. To be graded properly, include the hydrogen atoms on the chirality centers (asymmetric carbons). Be sure that both wedge/dash bonds are drawn on the outside of the ring, or else the stereochemistry may be interpreted as square planar.
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In chemistry, a trisubstituted cyclohexane compound in chair conformation can be depicted by drawing wedge-and-dash bonds to show the positions of the substituents on a flat piece of paper. It's crucial to include hydrogen atoms on asymmetric carbons and ensure the stereochemistry is accurately depicted by drawing both wedge/dash bonds on the outside of the ring.
Explanation:A trisubstituted cyclohexane compound in its chair conformation can be represented in a planar format using wedge-and-dash bonds to indicate the positions of the substituents. This method is used to represent three-dimensional molecular structures on a two-dimensional plane. We use wedge bonds to represent bonds that project out of the plane of the paper towards the viewer, and dash bonds to represent bonds that extend behind the plane of the paper away from the viewer.
For a proper representation, the hydrogen atoms have to be included on the chirality centers (asymmetric carbons). The stereochemistry of the molecule is maintained when both the wedge/dash bonds are drawn on the outside of the ring. Otherwise, it may be interpreted as square planar which is structurally different. To best understand this, practicing drawing out the structure following these guidelines would be helpful.
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To draw the chair conformation of a trisubstituted cyclohexane compound, follow the steps provided.
Explanation:To draw the chair conformation of a trisubstituted cyclohexane compound, follow these steps:
Draw two parallel lines slanting down, separated by about half their length, and with the bottom line starting from about the middle of the first.Start a line from the lower end of the bottom line, making a wide V shape, and extend it to about parallel to the top of the top line. Draw a line parallel to the first one in this step, starting from the top of the top line and extending to about the bottom of the bottom line.Connect the top of the right side line of step 2 to the bottom end of the top line of step 1, and do the same to the other line of step 2. These are the bonds that form the chair skeleton of the cyclohexane ring.Draw lines starting from the corners of the ring, going upwards from the corners pointing up, and going downwards from the corners pointing down. These bonds are approximately parallel to the axis of the ring and are called axial bonds.Finally, draw lines starting from the corners making a big V-shape to the axial bond and approximately parallel to the bond one bond away in the ring. These are approximately along the equator of the ring and are called equatorial bonds.Learn more about Drawing chair conformation of cyclohexane here:https://brainly.com/question/37307924
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Related Questions
what is the law of conservation of mass? how is it related to balancing chemical equations
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write the equation, Aluminum metal reacts with oxygen gas to produce aluminum oxide solid.
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What kind of bond does these have?
1.tap water
2.distilled water
3.sugar
4.salt
5.salt in distilled water
6.sugar in distilled water
Answers
2. Distilled water does not have H+ & OH- ions, hence only H-bonds exist between the water molecules.
3. There are covalent bonds between the individual sugar molecules.
4. There are ionic bonds between the Na+ & Cl- ions in NaCl.
5. There are p.d.-p.d. forces of attraction between the Na+ ions and the O2- partial ions of the water molecules as well as between the Cl- ions and the H+ partial ions of the water molecules. There are also H-bonds between the individual water molecules and ionic bonds between the Na+ & Cl- ions (although these are in much lower abundance than in unsolvated solid NaCl).
6. There are i.d.-i.d. as well as p.d.-p.d. forces of attraction between the sugar molecules and the water molecules. There are also H-bonds between the individual water molecules and covalent bonds within the sugar molecules.
Which of the following substance is not an acid?
Substance A is tested and found to have a pH of 3.
Substance B, a common food, tastes sour.
Substance C causes metals to corrode.
Substance D feels slippery in solution.
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Although Thomas was sitting right next to his friends in the park, he was able to smell buttered popcorn a couple of minutes before they did. He has a lower __________ for smells than his friends.
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Although Thomas was sitting right next to his friends in the park, he was able to smell buttered popcorn a couple of minutes before they did. He has a lower absolute threshold for smells than his friends.
What is absolute threshold?Absolute threshold is defined as the minimum amount of stimulation required to trigger the sensation of touch, taste, smell, vision or hearing.
It can also be defined as the smallest amount of a stimulus that a person can detect half a time. It is the part of neuroscience.
Thus, although Thomas was sitting right next to his friends in the park, he was able to smell buttered popcorn a couple of minutes before they did. He has a lower absolute threshold for smells than his friends.
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The mass of 0.357 mol of gold is?
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You must use dimensional analysis to solve this problem by using the molar mass of Au (gold) to find out how much mass would be in only .357mol Au
Which metal is most likely to form more than one kind of positively charged ion? sodium (Na) barium (Ba) nickel (Ni) magnesium (Mg)
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the correct answe is C - nickel (Ni)
Buffer solution problem: Calculate the pH of a solution that is 0.30 M in HF and 0.15 M in NaF? ...?
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To create a buffer solution at pH 3.0, we calculate the amount of sodium fluoride (NaF) needed using the Henderson-Hasselbalch equation and the molar mass of NaF. The needed base/acid ratio is 0.66, and for 100 ml of 1 M HF, we require 0.066 moles of F-, resulting in 2.767 g of NaF.
Explanation:The question involves calculating the pH of a buffer solution made from hydrofluoric acid (HF) and sodium fluoride (NaF). A buffer solution is prepared by mixing a weak acid with its conjugate base, or a weak base with its conjugate acid, which allows the solution to resist changes in pH when small amounts of acid or base are added.
To determine the amount of NaF needed to create a buffer at pH 3.0 with 100 ml of 1 M HF, we utilize the Henderson-Hasselbalch equation, which relates the pH of the buffer solution to the pKa of the acid and the ratio of the concentrations of the conjugate base to the conjugate acid. For HF, with a Ka of 6.6 x 10-4, the required base/acid ratio is 0.66. Since 100 ml of 1 M HF contains 0.1 moles of HF, we need 0.066 moles of F-, which is the dissociated form of NaF in solution. With the molar mass of NaF being 41.99 g/mol, the amount of NaF required is 2.767 g (0.066 moles × 41.99 g/mol).
To calculate the pH of a buffer solution containing HF and NaF, the Henderson-Hasselbalch equation is used with the known concentrations of acid and base. The molar mass of NaF aids in determining the required amount of NaF for a given buffer capacity at a specific pH.
Explanation:To calculate the pH of a solution that is 0.30 M in HF and 0.15 M in NaF, we can use the Henderson-Hasselbalch equation since HF (hydrofluoric acid) and NaF (sodium fluoride) form a buffer system. The equation is pH = pKa + log([A-]/[HA]), where [A-] is the concentration of the conjugate base (F- from NaF) and [HA] is the concentration of the conjugate acid (HF). Since NaF completely dissociates in water to give F- ions, the concentration of F- is 0.15 M. HF, being a weak acid, does not completely dissociate, so its concentration remains 0.30 M. However, the exact pKa value of HF is needed to complete the calculation. If we want to prepare a buffer at pH 3.0 using 100 ml of 1 M HF and NaF, the molar mass of NaF (41.99 g/mol) is used to find the amount of NaF needed to achieve the desired Base/Acid ratio of 0.66, which can be calculated to be approximately 2.767 grams of NaF.
Which type of atom has the strongest attraction for electrons in bond formation? barium (Ba) chlorine (Cl) iodine (I) strontium (Sr)
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The type of atom has the strongest attraction for electrons in bond formation Chlorine (Ci) consider the location of barium, chlorine, iodine, and strontium on the periodic table.
Answer: Chlorine has the strongest attraction for electrons in bond formation.
Explanation:
Chlorine is highly electronegative as compared to iodine and has high electron gain enthalpy. So, it will readily accept an electron in order to complete its octet. The electronegativity decreases down the group from Cl to I, and hence the tendency to gain an electron decreases.
In case of Barium, and Strontium there are completely filled sub shells and therefore the tendency to gain an electron is the least.
Thus, it can be concluded that chlorine has the strongest attraction for electrons in bond formation.
The element ___ is always present in a combustion reaction
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an ore contains a mixture of zinc carbonate and lead carbonate. Zinc and lead are produced from this ore by 2 reactions.
REACTION 1: The carbonates in the ore are converted into a mixture of zinc oxide and lead oxide
Name this type of reaction. ______________________
How is this reaction done? _______________________
REACTION 2: the metals are mixed with carbon and heated in a furnace to produce zinc and lead
Explain why zinc and lead are produced ...?
Answers
Answer: the ore undergoes a decomposition reaction to convert the carbonates into metal oxides, and then a reduction reaction to produce the pure metals zinc and lead.
Explanation:
The type of reaction in which the carbonates in the ore are converted into a mixture of zinc oxide and lead oxide is called a decomposition reaction.
In this reaction, the zinc carbonate and lead carbonate compounds are broken down into their respective metal oxides, zinc oxide and lead oxide. This is achieved by heating the ore, which provides the energy needed to break the chemical bonds in the carbonates.
The decomposition reaction is represented by the following chemical equation:
ZnCO3 (zinc carbonate) → ZnO (zinc oxide) + CO2 (carbon dioxide)
PbCO3 (lead carbonate) → PbO (lead oxide) + CO2 (carbon dioxide)
The second reaction, known as reduction, involves mixing the metal oxides (zinc oxide and lead oxide) with carbon and heating them in a furnace. This process is known as smelting.
During smelting, the carbon acts as a reducing agent, meaning it removes the oxygen from the metal oxides. This reduction reaction converts the metal oxides into their respective pure metals, zinc and lead. The carbon combines with oxygen to form carbon dioxide.
The reduction reaction can be represented by the following chemical equation:
ZnO (zinc oxide) + C (carbon) → Zn (zinc) + CO (carbon monoxide)
PbO (lead oxide) + C (carbon) → Pb (lead) + CO (carbon monoxide)
Zinc and lead are produced because the smelting process separates the metal atoms from the oxygen atoms in the metal oxides. This is possible because carbon has a higher affinity for oxygen than zinc and lead do. As a result, the carbon reacts with the oxygen, leaving behind the pure metals.
A box experiences a 20 N force to the left and two different 8 N forces to the right.(A) Will accelerate to the left (B) Will accelerate to the right (C) Will not accelerate
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The greater force will dominate here and the object will accelerate to the left. The net force acting on the object will be 2 N .
What is force ?Force is an external agent acting on an object to change its state of motion or rest or to deform it. There are various kinds of forces such as gravitational force, magnetic force, nuclear force etc.
According to Newton's second law of motion, force is the product of mass and acceleration. If two same or different forces acting from the same direction, they will add up together. If two forces acting from opposite direction, they will balance each other in magnitude.
Here, 20 N acts to the right and total 16 N acts to the left. Hence, 2 N net force acts to the left. Then, the box will accelerate to the left side. Hence, option B is correct.
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Atoms of which element contain 25 protons?
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Atoms of manganese contains 25 protons.
An element is the simplest chemical substances that cannot be decomposed in a chemical reaction or by any chemical means and made up of atoms all having the same number of protons.
The identity of an element can be traced to the number of protons in its atom. The number of protons possessed by an atom is the same as its atomic number.
Manganese is a metallic chemical element with symbol Mn and an atomic number of 25.
Which of the following diatomic species are paramagnetic and which are diamagnetic? A blank molecular orbital diagram (Part B 1 figure) has been provided to help you.
Drag the formulas to the appropriate magnetic bin :C2^2+,Li2-,B2^2-
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The diatomic species C2^2+ is diamagnetic, while the species Li2- and B2^2- are paramagnetic due to the presence of unpaired electrons.
Explanation:In chemistry, a species is paramagnetic if it has at least one unpaired electron and is diamagnetic if it has no unpaired electrons. Here, we can determine these characteristics by filling out molecular orbital diagrams and checking for unpaired electrons.
For C2^2+, two electrons are removed, making this molecule diamagnetic with no unpaired electrons. Li2- gains an electron, so it becomes paramagnetic with one unpaired electron. B2^2- gains two electrons, but it still remains paramagnetic because these two gained electrons will not pair up.
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On a graph, which type of line shows a direct proportion? A. upwardly curved line B. downwardly curved line C. straight line D.jagged line
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Answer: Straight line
Explanation:
A straight line on the graph shows two factor that are represented on the x-axis and y-axis is directly proportional to each other.
In this condition the graph between these terms is a straight line. The term directly proportional states that if one factor is increasing then the other factor will also increase.
Example : Ohm's law, a straight line is formed when a graph is made between voltage and current as V=IR
Hence, the correct answer is option C
What mass of CCl4 is formed by the reaction of 5.14 g of methane with an excess of chlorine?
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1. 5.14 g CH4 * (1 mol CH4 / 16.04 g/mol) = .32125 moles CH4
Now we know that there are .32125 moles of CCl4 produced as well.
Next, take .32125 moles and multiply it by the atomic mass of CCl4, which is 153.82 grams = 49.29 g CCl4 produced by the reaction.
[tex]\boxed{{\text{49}}{\text{.224 g}}}[/tex] of [tex]{\text{CC}}{{\text{l}}_4}[/tex] is produced by the reaction of 5.14 g of methane with an excess of chlorine.
Further explanation:
Stoichiometry of a reaction is used to determine the amount of species present in the reaction by the relationship between the reactants and products. It can be used to determine the moles of a chemical species when the moles of other chemical species present in the reaction is given.
Consider the general reaction,
[tex]{\text{A}} + 2{\text{B}}\to3{\text{C}}[/tex]
Here,
A and B are reactants.
C is the product.
One mole of A reacts with two moles of B to produce three moles of C. The stoichiometric ratio between A and B is 1:2, the stoichiometric ratio between A and C is 1:3 and the stoichiometric ratio between B and C is 2:3.
Limiting reagent:
A limiting reagent is the one that is completely consumed in a chemical reaction. The amount of product formed in any chemical reaction has to be in accordance with the limiting reagent of the reaction. The amount of product depends on the amount of limiting reagent since the product formation is not possible in the absence of it.
The given reaction occurs as follows:
[tex]{\text{C}}{{\text{H}}_4}\left(g\right) + 4{\text{C}}{{\text{l}}_2}\left(g\right)\to{\text{CC}}{{\text{l}}_4}\left(g\right)+4{\text{HCl}}\left(g\right)[/tex]
It is given that chlorine is present in an excess amount so methane [tex]\left({{\text{C}}{{\text{H}}_4}}\right)[/tex] is a limiting reagent and therefore it controls the amount of [tex]{\text{CC}}{{\text{l}}_4}[/tex] produced during the reaction.
The formula to calculate the amount of [tex]{\text{C}}{{\text{H}}_4}[/tex] is as follows:
[tex]{\text{Amount of C}}{{\text{H}}_4} = \frac{{{\text{Given mass of C}}{{\text{H}}_{\text{4}}}}}{{{\text{Molar mass of C}}{{\text{H}}_{\text{4}}}}}[/tex] …… (1)
The given mass of [tex]{\text{C}}{{\text{H}}_4}[/tex] is 5.14 g.
The molar mass of [tex]{\text{C}}{{\text{H}}_4}[/tex] is 16.04 g/mol.
Substitute these values in equation (1).
[tex]\begin{aligned}{\text{Amount of C}}{{\text{H}}_4} &= \left({{\text{5}}{\text{.14 g}}}\right)\left({\frac{{{\text{1 mol}}}}{{{\text{16}}{\text{.04 g}}}}}\right)\\ &= 0.32044\\&\approx{\mathbf{0}}{\mathbf{.320 mol}}\\\end{aligned}[/tex]
From the balanced chemical reaction, it is clear that 1 mole of [tex]{\text{C}}{{\text{H}}_4}[/tex] produces 1 mole of [tex]{\text{CC}}{{\text{l}}_4}[/tex] .
So the amount of [tex]{\text{CC}}{{\text{l}}_4}[/tex] is equal to that of [tex]{\text{C}}{{\text{H}}_4}[/tex] and thus the amount of [tex]{\text{CC}}{{\text{l}}_4}[/tex] is 0.320 mol.
The formula to calculate the mass of [tex]{\text{CC}}{{\text{l}}_4}[/tex] is as follows:
[tex]{\text{Mass of CC}}{{\text{l}}_4} = \left( {{\text{Moles of CC}}{{\text{l}}_4}}\right)\left({{\text{Molar mass of CC}}{{\text{l}}_4}}\right)[/tex]
…… (2)
The number of moles of [tex]{\text{CC}}{{\text{l}}_4}[/tex] is 0.320 mol.
The molar mass of [tex]{\text{CC}}{{\text{l}}_4}[/tex] is 153.82 g/mol.
Substitute these values in equation (2).
[tex]\begin{gathered}{\text{Mass of CC}}{{\text{l}}_4} = \left({{\text{0}}{\text{.320 mol}}}\right)\left({\frac{{{\text{153}}{\text{.82 g}}}}{{{\text{1 mol}}}}}\right)\\ = {\mathbf{49}}{\mathbf{.224 g}}\\\end{gathered}[/tex]
Therefore, the mass of [tex]{\text{CC}}{{\text{l}}_4}[/tex] produced is 49.224 g.
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Answer details:
Grade: Senior School
Subject: Chemistry
Chapter: Mole concept
Keywords: stoichiometry, reactant, product, limiting reagent, CCl4, CH4, Cl2, molar mass, given mass, amount of CH4, amount of CCl4, 49.224 g, mass of CCl4, 4Cl2, 4 HCl, 5.14 g, 16.04 g/mol.
How is electronegativity related to covalent bonding?
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Electronegativity measures an atom's ability to attract electrons. In covalent bonding, the electrons are shared between two atoms. However, if one atom is more electronegative, it will attract more shared electrons, potentially creating a polar covalent bond.
Electronegativity is a measure of the ability of an atom in a chemical compound to attract electrons. In covalent bonding, the electrons are shared between two atoms. However, these electrons are not always shared equally. If one atom has a higher electronegativity than the other, it will pull the shared electrons closer to itself. This can result in a polar covalent bond, where one side of the molecule carries a slight negative charge and the other side carries a slight positive charge. For example, in a water molecule (H2O), the electronegativity of oxygen is higher than that of hydrogen, leading oxygen to attract more electrons and making the bond a polar covalent bond.
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Tracem-p outlines potential hazards and mechanisms of injury at a hazardous materials (hazmat) incident. the letter “t” stands for:
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The maximum number of orbits in an atom is _____.
-three
-five
-seven
-nine
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Elements do not contain more than 7 electron shells.
The 64.8-g sample of the compound X2O5 contains 48.0 g of oxygen atoms. What is the molar mass of element X?
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The number of moles (n) is the ratio of mass (m) and molar mass (M):
n = m : M
Step 1. Calculate number of moles of oxygen in the compound.
n = ?
m = 48 g
M = 16 g/mol
n = m/M = 48 g : 16 g/mol = 3 mol
Step 2. Calculate the number of moles of the element X:
5 atoms of oxygen is 3 mol.
2 atoms of element X is x
5 : 3 = 2 :x
x = 2 * 3 / 5 = 6/5 = 1.2 mol
Step 3. Calculate the molar mass of element X
n = 1.2 mol
m = 64.8 g - 48 g = 16.8 g
M = ?
n = m : M
M = m : n
M = 16.8 g : 1.2 mol = 14 g/mol
How much heat energy is required to raise the temperature of 0.367 kg of copper from 23.0 C to 60.0 C ? The specific heat of copper is 0.0920 cal/(g x C)
If 125 cal of heat is applied to a 60.0 g - piece of copper at 23.0 C, what will the final temperature be? The specific heat of copper is 0.0920 cal /(g x C)
Answers
1)
Heat supplied can be calculated using:
Q = mCpΔT; where m is the mass, Cp is the specific heat capacity and ΔT is the temperature change.
Q = 367 x 0.092 x (60 - 23)
Q = 125 Cal
2)
Using the same equation:
125 = 60 x 0.092 x (T - 23)
T = 45.6 C
This graph shows the concentration of the reactant A in the reaction A→B.
Determine the average rate of the reaction between 0 and 10 seconds.
0.007 M/s
0.014 M/s
0.86 M/s
0.07 M/s
Answers
Answer:
0.014 M/s
Explanation:
The rate of a reaction depends on the concentration of a particular compound and it stoichmetry coefficient. For the reaction:
aA + bB → cC +dD
The rate can be calculated:
r = -(1/a)xΔ[A]/Δt = -(1/b)xΔ[B]/Δt = (1/c)xΔ[C]/Δt = (1/d)xΔD/Δt
The minus signal for the reagents its because they are being consumed, so Δ[A] and Δ[B] will be negative, and r must be positive. Δt is the time variation.
So, for the reaction given, in t = 0, [A] =1 M, and in t= 10s, [A] = 0.86 M, then
Δ[A] = -0.14 M
r = -(Δ[A]/Δt)
r = -(-0.14/10)
r = 0.014 M/s
What is the frequency and wavelength of light that has energy of [tex]5.09 x 10^{-19} [/tex]
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By hypothesis, E = 5.09*10^19 J
E = hv so v = E/h = (5.09*10^-19) / (6.63 * 10^-34) ≈ 7.677 * 10^14 s.
Now Wavelength λ = celerity c / frequency ν, where c = 3 * 10^8 m/s
So λ = (3*10^8) / (7.677 * 10^14) ≈ 3.907 * 10^-7 m = 390.7 nm
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Light with an energy of 5.09 x 10^-19 Joules corresponds to a frequency of 7.68 x 10^14 Hz and a wavelength of 391 nm.
Explanation:The energy of light is given by Planck's formula, E = hv, where E is energy, h is Planck's constant (6.626 × 10^-34 Js) and v is the frequency. To find the frequency, we can rearrange the formula as v = E/h. This gives a frequency of v = 5.09 x 10^-19 / 6.626 x 10^-34 = 7.68 x 10^14 Hz or s^-1.
Next, we will find the wavelength using the equation c = fλ, where c is the speed of light in a vacuum (3 x 10^8 m/s), f is frequency, and λ is the wavelength. Therefore, λ = c/f = 3.00 x 10^8 / 7.68 x 10^14 = 3.91 x 10^-7 m or 391 nm. So, the given energy corresponds to light with a frequency of 7.68 x 10^14 Hz and a wavelength of 391 nm.
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1) The spectrum of lithium has a red line of 670.8 nanometers. (Remember 1 m = 1 X 109 nm) a. Convert the nanometer to meter using dimensional analysis. b. Calculate the frequency of the wave. c. Calculate the energy of a photon with this wavelength.
Answers
ħ = plancks constant = 6.626x10^-34 Js
c = speed of light = 2.999x10^8 m/s
λ = wavelength of light = 670.8x10^-9 m
E = (6.626x10^-34 Js) x (2.999x10^8 m/s) x (1 / 670.8x10^-9 m)
E = 2.962x10^-19 J
3x10^8 / (670.8 * 10^-9) =4.47x10^14 Hz
4.47x10^14 Hz multiplied by plank's constant = 2.9634x10^-19
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Select the equations that are correctly balanced.
a. H2O + 2O2 → H2O2
b. Fe2O3 + 3H2 → 2Fe + 3H2O
c. Al + 3Br2 → AlBr3
d. CaCO3 → CaO + CO2
Answers
Answer:
b & d are correctly balanced. Hope this helped!
Explanation:
The Periodic Table of Elements is organized by the number of:
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1.Which best explains why ionization energy tends to decrease from the top to the bottom of a group?
A.The number of orbitals decreases.
B.The number of neutrons decreases.
C.Electrons get closer to the nucleus.
D.Electrons get farther from the nucleus.
3.When electrons are removed from the outermost shell of a calcium atom, the atom becomes
A. an anion that has a larger radius than the atom.
B. an anion that has a smaller radius than the atom.
C. a cation that has a larger radius than the atom.
D. a cation that has a smaller radius than the atom.
Answers
Answer:
1) Electrons get farther from the nucleus.
2) a cation that has a smaller radius than the atom.
Explanation:
1) ionization energy is the energy required to remove the valence electron from an isolated gaseous atom of an element.
Thus it requires some energy to remove the electron as electrons are attracted towards nucleus (positive protons are present) due to nuclear charge.
As the size increases on moving top to bottom (due to more number of shells) the distance of electrons from the nucleus increases which decreases the effective nuclear charge on electrons, decreasing the ionization energy.
2) When an atom loses an electron it attains a positive charge and is known as cation.
A cation has smaller size than the neutral atom as the less electrons are attracted towards nucleus and thus feel more effective nuclear charge.
The answers are 1. The ionization energy tends to decrease from the top to the bottom of a group because D. Electrons get farther from the nucleus. 3. When electrons are removed from the outermost shell of a calcium atom, the atom becomes D. a cation that has a smaller radius than the atom.
The correct answer for question 1 is D. Electrons get farther from the nucleus best explains why ionization energy tends to decrease from the top to the bottom of a group
Ionization energy is the energy required to remove an electron from an atom in the gaseous state. As one moves down a group in the periodic table, the ionization energy tends to decrease. This is because each element down the group has an additional shell of electrons. The outermost electrons are farther from the nucleus, which means they experience a weaker effective nuclear charge. The increased distance from the nucleus and the screening effect of the inner electrons make it easier to remove an outer electron, thus decreasing the ionization energy.
The incorrect options can be explained as follows:
A. The number of orbitals increases, not decreases, as one moves down a group, which actually contributes to the decrease in ionization energy.
B. The number of neutrons generally increases as one moves down a group, but this does not directly affect the ionization energy.
C. Electrons do not get closer to the nucleus; in fact, they get farther away as additional electron shells are added, which is why the ionization energy decreases.
The correct answer for question 3 is D. a cation that has a smaller radius than the atom.
When electrons are removed from an atom, the atom becomes a cation (a positively charged ion). In the case of calcium, which has two electrons in its outermost shell, removing these electrons results in a Ca^2+ ion. Because the outermost electrons are no longer there to shield the nuclear charge, the remaining electrons are more strongly attracted to the nucleus. This causes the ion to have a smaller radius than the neutral atom.
The incorrect options can be explained as follows:
A. An anion is formed when an atom gains electrons, not when electrons are removed.
B. An anion would have a larger radius than the neutral atom because the added electrons increase repulsion and decrease the effective nuclear charge.
C. A cation has a smaller radius than the neutral atom, not a larger one, because the loss of electrons increases the effective nuclear charge, pulling the remaining electrons closer to the nucleus."
Balance the following redox equation, using half-reactions. Assume that the reaction occurs in an aqueous solution.
Cr2O72– + NO → Cr3+ + NO3–
Answers
To balance the redox equation Cr2O72– + NO → Cr3+ + NO3–, one must write the separate oxidation and reduction half-reactions, balance atoms and charges in each, ensure electrons are equal and opposite, and then combine and simplify the equation.
Explanation:Steps to Balance the Redox Equation
To answer the question on how to balance the redox equation Cr2O72– + NO → Cr3+ + NO3– using half-reactions, we must apply the steps for balancing redox reactions in an aqueous solution. First, we write the oxidation and reduction half-reactions. In this case, Cr2O72– is reduced to Cr3+ and NO is oxidized to NO3–.
For the reduction half-reaction (Cr2O72– to Cr3+), we balance the oxygen by adding water molecules and the hydrogen by adding H+ ions (in acidic solution), then balance the charge by adding electrons. For the oxidation half-reaction (NO to NO3–), we balance the oxygen by adding water, the hydrogen by adding H+ ions, and finally, the charge by adding or removing electrons.
This process requires the balancing of atoms and charges in each half-reaction separately, and once that is done, we combine the two half-reactions and ensure that the electrons lost in oxidation equal the electrons gained in reduction. Finally, we simplify the equation by canceling out species that appear on both sides.
2. In a molecule represented by the chemical formula C6H12O6, how many atoms of each element are present?
Answers
C6H12O6 is sugar.
There are:
6 C (carbon atoms),
12 of H (hydrogen atoms),
6 of O (oxygen atoms).
Is mud a suspension, solution, or colloid?
Answers
In the given question, mud is a type of colloid in which particles are evenly distributed.
A colloid is a mixture in which small particles of one substance are dispersed evenly throughout another substance.
In the case of mud, small particles of dirt or clay are suspended in water, creating a mixture that is neither fully a solution nor a suspension.
The particles in mud are small enough to remain suspended in the water, but large enough to scatter light and create a cloudy appearance.
Therefore, mud is a form of colloid with evenly scattered particles.
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