For each bond, show the direction of polarity by selecting the correct partial charges. si-p si-s s-p the most polar bond is
The biggest elctronegative difference is between silicon and sulfur. So Si-S will be most polar bond.
The polarity between the two atoms is determined by their relative difference in electronegativity.
The Electronegativity of ,
Silicon= 1.9
Phosphorus= 2.19
Sulfur= 2.58
The direction of polarity,
[tex]\rm \bold{ \delta^+Si\rightarrow \delta^-P}\\\rm \bold{ \delta^+Si\rightarrow \delta^-S}\\\rm \bold{ \delta^+P\rightarrow \delta^-S}[/tex]
Since, the biggest elctronegative difference is between silicon and sulfur (Si-S).
Hence we can say that Si-S will be most polar bond.
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Add formal charges to each resonance form of hcno below.based on the formal charges you added above, which structure is favored?
Answer:
The second structure is the most stable of all three.
Explanation:
The Formal Charge in the different resonance structures of HCNO is,
[tex]\rm FC=V-N+B[/tex]
Where,
FC- Formal charge
V- Valence Electron
N- Non-bonding Electron
B- Number of bonds
So, Formal charge In the atoms of first resonance structure is
H = 1-0+1=0
C = 4 -4+2 = -2
N = 5 - 0+4 = 1
O = 6 - 2 + 3 = 1
Formal charge In the atoms of Second resonance structure is
H = 1-0+1 = 0
C = 4 - 0 + 4 =0
N = 5 - 0 + 4 = 1
O = 6 - 6+1 = -1
Formal charge In the atoms of Third resonance structure is
H = 1-0 + 1 = 0
C = 4 - 2 +3 = -1
N = 5 - 0 + 4 = 1
O = 6 - 4 +2 = 0
To Figure out the most stable resonance structure we have to keep two things in mind:
1) The stable molecular structure tend to have the least number of charged atom.
2) In a stable molecular structure the negative charge is present in the more electronegative atom.
Here decreasing order of electronegativity is,
N > O > C > H
From the Explanation above, the second structure (B) follows both points
Therefore, The second structure is the most stable of all three.
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How many moles (of molecules or formula units) are in each sample? part a 71.66 g cf2cl2?
What are ionic compounds typically composed of ?
A. A metal anion and a nonmetal cation
B. Two metal anions
C. A metal cation and non metal anion
D.Two nonmetal cations
Ionic compounds are generally formed from a metal cation (positively charged ion) and a nonmetal anion (negatively charged ion), so the correct answer to your question is option C.
Explanation:Ionic compounds are typically composed of a metal cation and nonmetal anion. This means the correct answer to your question is option C. A cation is a positively charged ion, and in this context, it is typically formed by an element from the left side of the periodic table, or a metal. An anion, on the other hand, is a negatively charged ion, usually formed by an element from the right side of the periodic table, or a nonmetal. When these ions combine, they create an ionic compound, such as NaCl (sodium chloride), where sodium is the metal cation and chloride is the nonmetal anion.
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The base-dissociation constant of ethylamine (c2h5nh2) is 6.4 ??? 10???4 at 25.0 ??
c. the [h ] in a 1.2 ??? 10-2 m solution of ethylamine is ________ m.
[H⁺]=3.608.10⁻¹²
Further explanationWeak acid ionization reaction occurs partially (not ionizing perfectly as in strong acids)
The ionization reaction of a weak acid is an equilibrium reaction
HA (aq) ---> H⁺ (aq) + A⁻ (aq)
The equilibrium constant for acid ionization is called the acid ionization constant, which is symbolized by Ka
The values for the weak acid reactions above:
[tex]\rm Ka=\dfrac{[H][A^-]}{[HA]}[/tex]
The greater the Ka, the stronger the acid, which means the reaction to the right is also greater
Where Kb is the base ionization constant
LOH (aq) ---> L⁺ (aq) + OH⁻ (aq)
[tex]\rm Kb=\dfrac{[L][OH^-]}{[LOH]}[/tex]
Kb of Ethylamine (C₂H₅NH₂) : 6.4.10⁻⁴
The ethylamine ionization reactions occur in water as follows:
C₂H₅NH₂ + H₂O ⇒ C₂H₅NH₃⁺ + OH⁻
with a Kb value:
[tex]\rm Kb=\dfrac{[C_2H_5NH_3^+][OH^-]}{[C_2H_5NH_2]}[/tex]
for example x = number of moles / concentration that reacts
Initial concentration of Ethylamine (C₂H₅NH₂) : 1.2.10⁻²
Concentration at equilibrium = 1.2.10⁻² -x
Initial concentration of C₂H₅NH₃ = 0
Concentration at equilibrium = x
Initial concentration OH⁻ = 0
Concentration at equilibrium = x
so the value of Kb =
[tex]\rm Kb=\dfrac{[x][x]}{[1.2.10^{-2}-x]}\\\\assumption\:x=so\:small\:then\\\\6.4.10^{-4}=\dfrac{x^2}{1.2.10^{-2}}\\\\x^2=7.68.10^{-6}\\\\x=2.771.10^{-3}[/tex]
x = [OH⁻] = 2.771.10⁻³
Ka x Kb = [H⁺] [OH-]
a water equilibrium constant value (Kw) of 1.10⁻¹⁴ at 25 °C
Ka x Kb = [H +] [OH-] = 1.10⁻¹⁴
1.10⁻¹⁴ = [H⁺] . 2.771.10⁻³
[H⁺]=3.608.10⁻¹²
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The data in the table below were obtained for the reaction: 2clo2 (aq) + 2 oh- (aq) --> clo3- (aq) + clo2- (aq) + h2o (l) experiment [clo2] (m) [oh-] (m) initial rate (m/s) 1 0.060 0.030 0.0248 2 0.020 0.030 0.00276 3 0.020 0.090 0.00828 what is the order of the reaction with respect to clo2?
The order of the reaction with respect to clo2 is 1.
Explanation:The order of the reaction with respect to clo2 can be determined by comparing the initial rates of different experiments and analyzing the effect of changing the concentration of clo2 on the reaction rate. By comparing the rates of Experiment 1 and Experiment 2, we can see that when the concentration of clo2 is halved, the rate of the reaction is also halved. This indicates that the reaction rate is directly proportional to the concentration of clo2. Therefore, the order of the reaction with respect to clo2 is 1.
If 4.8 moles of X and 3.4 moles of Y react according to the reaction below, how many moles of the excess reactant will be left over at the end of the reaction?
3X + 2Y “yields”/ X3Y2
1.7 mol Y left over
1.6 mol X left over
0.2 mol Y left over
0.1 mol X left over
Answer : The correct option is, 0.2 mole Y left over .
Explanation : Given,
Moles of X = 4.8 mole
Moles of Y = 3.4 mole
The balanced chemical reaction is,
[tex]3X+2Y\rightarrow X_3Y_2[/tex]
From the balanced reaction, we conclude that
As, 3 moles of X react with 2 moles of Y
So, 4.8 moles of X react with [tex]\frac{2}{3}\times 4.8=3.2[/tex] moles of Y
From this we conclude that, the reactant Y is an excess reagent and X is a limiting reagent.
The moles of excess reagent left over at the end of the reaction = Given moles of X - Required moles of X
The moles of excess reagent left over at the end of the reaction = 3.4 - 3.2 = 0.2 mole
Therefore, the moles of excess reagent left over at the end of the reaction is, 0.2 mole Y left over.
Answer:
The correct answer is : '0.2 mol Y left over'.
Explanation:
[tex]3X + 2Y \rightarrow X_3Y_2[/tex]
Moles of X = 4.8 moles
Moles of Y = 3.4 moles
According to reaction, 3 moles of X react with 2 moles of Y .
Then 4.8 moles of X react with :
[tex]\frac{2}{3}\times 4.8=3.2 [/tex]moles of Y
Moles of Y reacted = 3.2 moles
Moles of Y left unreacted = 3.4 moles - 3.2 moles = 0.2 moles
As we can see that X is in limiting amount and y is present in an excessive amount.And the left over amount of Y is 0.2 moles.
-As the temperature increased, what happened to the N2O4 concentration?
Determine the empirical formula of a compound that contains 49.4% k, 20.3% s and 30.3% o.
A chemist mixes oxygen gas and hydrogen gas to form water, which is composed of one oxygen and two hydrogen atoms per molecule. What has occurred? A physical change B chemical change C combustion D precipitation
Answer: The formation of water is a chemical change.
Explanation:
Physical change is defined as the change in which change in shape and size takes place. The chemical composition of a substance remains the same. No new substance is formed during this.
For Example: Melting of ice
Chemical change is defined as the change in which change in chemical composition takes place. A new substance is formed in this.
For Example: Formation of water molecule.
The chemical equation for the formation of water molecule follows:
[tex]2H_2+O_2\righatarrow 2H_2O[/tex]
Hence, the formation of water is a chemical change.
Which acid is the best choice to create a buffer with ph= 7.66?
How do sodium and potassium ions transfer in and out of an axon?
A.Through “gates” that open up
B.Through an absorption process
C.Through neural communication
D.Through an electrical process
Answer:
Option A= through gates that,s open up
Explanation:
The sodium and potassium ions transfer in and out the axon through electrical process. This process is called depolarization and re-polarization.
Depolarization:
Depolarization is occur when stimulus is given to the resting neuron. In this process gates of sodium ions on the membrane become open and sodium ions that are present out side. inter into the cell. because of this process the charge of the nerve changes (-70 mv to -55 mV).
Re-polarization:
when the re-polarization occur, potassium gates are open and the potassium ions goes outside the membrane. During this process electrical potential becomes negative inside the cell until the potential of -70 mV is re-attain i.e, resting potential.
In short we can say that depolarization allow sodium ions to inter into the nerve membrane and re-polarization allow potassium ions to moves out side the membrane.
Answer:
A.) Through gates that open up
Explanation:
Odyssey ware
Titanium is a metal used to make golf clubs. a rectangular bar of this metal measuring 1.77 cm x 2.08 cm x 2.64 cm was found to have a mass of 48.9 g. what is the density of titanium in g/cm3? answer
molecular or formula mass P4
Xas shown in table 15.2, kp for the equilibrium n21g2 + 3 h21g2 δ 2 nh31g2 is 4.51 * 10-5 at 450 °c. for each of the mixtures listed here, indicate whether the mixture is at equilibrium at 450 °c. if it is not at equilibrium, indicate the direction (toward product or toward reactants) in which the mixture must shift to achieve equilibrium. (a) 98 atm nh3, 45 atm n2, 55 atm h2 (b) 57 atm nh3, 143 atm n2, no h2 (c) 13 atm nh3, 27 atm n2, 82 atm h
What is the percent by mass of potassium in K3Fe(CN)6?
Answer:
The percentage of potassium in the given complex is 35.54 %.
Explanation:
Mass of potassium in [tex]K_3Fe(CN)_6[/tex] = 3 × 39.10 g mol=117.3 g/mol
Molar mass of [tex]K_3Fe(CN)_6[/tex] =329.15 g/mol
Percentage of potassium (K) in the the complex:
[tex]\% K=\frac{\text{mass of potassium}}{\text{molar mass of complex}}\times 100[/tex]
[tex]\%K=\frac{117.3 g/mol}{329.15 g/mol}\times 100=35.54\%[/tex]
The percentage of potassium in the given complex is 35.54 %.
What are isotopes? What are some examples of common stable isotopes?
When the metal sample reacts with acid, the gas evolved will be collected over water; the gas is said to be "wet". what is the composition of "wet" gas? how can partial pressure of hydrogen gas be obtained from the total pressure of wet gas? how will you obtain the neccessay data ro determine the pressure of hydrogen gas?
A leaf falls into a shallow lake and is rapidly buried in the sediment the sediment change choose to rock over millions of years which type of fossil would most likely be form
mass of 0.432 moles of C8H9O4?
Explanation:
It is known that number of moles present in a substance is equal to the mass divided by molar mass.
Mathematically, No. of moles = [tex]\frac{mass}{\text{molar mass}}[/tex]
As it is given that number of moles are 0.432 moles and molar mass of [tex]C_{8}H_{9}O_{4}[/tex] is 169.15 g/mol.
Hence, calculate the mass of [tex]C_{8}H_{9}O_{4}[/tex] is as follows.
No. of moles = [tex]\frac{mass}{\text{molar mass}}[/tex]
0.432 mol = [tex]\frac{mass}{169.15 g/mol}[/tex]
mass = 73.072 g
Thus, we can conclude that the mass of 0.432 moles of [tex]C_{8}H_{9}O_{4}[/tex] is 73.072 g.
How many moles of caco3 are there in an antacid tablet containing 0.515 g caco3?
Answer:
[tex]0.00515molCaCO3[/tex]
Explanation:
Hello,
By following the down below simple mass-mole relationship, the requested moles are computed, considering that the calcium carbonate has a molecular mass of 100g/mol:
[tex]M_{CaCO3}=40+12+16*3=100g/mol\\\\n_{CaCO3}=0.515gCaCO3*\frac{1molCaCO3}{100gCaCO3}=0.00515molCaCO3[/tex]
Best regards.
Final answer:
To calculate the number of moles of CaCO₃ in a 0.515 g antacid tablet, divide the mass of the CaCO₃ by its molar mass, yielding approximately 0.005144 moles of CaCO₃.
Explanation:
To find the number of moles of CaCO₃ in an antacid tablet containing 0.515 g of CaCO₃, we need to use the molar mass of CaCO₃. The molar mass of CaCO₃ (calcium carbonate) is approximately 100.09 g/mol. To calculate the moles, we divide the mass of the sample by its molar mass.
The calculation is as follows:
Mass of CaCO₃ = 0.515 gMolar mass of CaCO₃ = 100.09 g/molNumber of moles = Mass / Molar massNumber of moles = 0.515 g / 100.09 g/mol = 0.005144 molesTherefore, there are approximately 0.005144 moles of CaCO₃ in the antacid tablet.
Look up the boiling points of anisole and d-limonene. which one do you expect to elute first in gas chromotograpjhy
Final answer:
In gas chromatography, compounds elute based on their boiling points, with those having lower boiling points eluting first. Since anisole has a lower boiling point than d-limonene, anisole is expected to elute first.
Explanation:
The question asks which compound, anisole or d-limonene, would elute first in gas chromatography (GC) based on their boiling points. In gas chromatography, compounds generally elute in order of increasing boiling points because compounds with lower boiling points have lower retention times on the GC column. Also, the elution order correlates with the strength of intermolecular forces (IMFs) affecting the compounds; compounds with stronger IMFs tend to have higher boiling points and adhere more to the stationary phase, thus eluting later. Although the specific boiling points of anisole and d-limonene are not provided in this answer, it is known that anisole has a boiling point of about 154°C, and d-limonene has a boiling point around 176°C. Therefore, one would expect anisole to elute first in gas chromatography due to its lower boiling point compared to d-limonene.
) Calculate the molarity of a solution prepared by dissolving 117 g of sodium chloride (NaCl) in enough water to make 2.7 liters of solution.
Rubbing alcohol evaporates from your hand quickly, leaving a cooling sensation. Because evaporation is an example of a physical property, how do the molecules of gas compare to the molecules as a liquid? 1. The gas particles have a stronger attraction between them and move slower than the liquid. 2. The gas and liquid particles have the same structure and identity but different motion and kinetic energy. 3. The bonds inside the molecule are broken, and atoms move closer together as evaporation occurs. 4. The bonds are broken, and atoms spread apart as it changes from liquid to gas.
Final answer:
Rubbing alcohol molecules as a gas have the same structure as in the liquid but with more kinetic energy and less intermolecular attraction, which upon evaporation causes a cooling effect through evaporative cooling.
Explanation:
When rubbing alcohol evaporates from your hand, it leaves a cooling sensation because the molecules in the liquid state require a certain threshold of kinetic energy to overcome intermolecular forces and escape into a gas state. The correct statement regarding how the molecules of gas compare to the molecules as a liquid is:
The gas and liquid particles have the same structure and identity but different motion and kinetic energy.In the gaseous state, particles move faster and are further apart compared to when they are in the liquid state, where particles are closer together and have stronger intermolecular attractions. This process of evaporation involves evaporative cooling, where the molecules with higher kinetic energy escape, leaving behind those with lower kinetic energy, which results in a decrease in temperature.
Q 9.3: how many triplets would you expect to observe in the 1h nmr spectra for o-chlorotoluene
Answer:
No triplet.
Explanation:
A triplet is observed in proton nmr when the neighboring, chemically non equivalent, carbon atoms bear two hydrogen atoms.
Let us examine the structure of o-chlorotoluene [shown in figure].
As shown in the figure there is no carbon bearing two equivalent hydrogen.
There are five non equivalent kind of hydrogen on the molecule
Three hydrogen are equivalent (Ha)
So we will observe only
a) Singlet
b) Doublet
c) Double doublet (split doublet)
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What is the expected oxidation state for the most common ion of element 2
Why do sea and ocean levels recede (more coast land is exposed) when the planet goes through a major ice age?
How many moles of co2 are produced when 5.20 mol of ethane are burned in an excess of oxygen?
A particular first-order reaction has a rate constant of 1.35 × 102 s-1 at 25.0°c. what is the magnitude of k at 75.0°c if ea = 85.6 kj/mol?
This question involves the application of the Arrhenius equation in chemistry, particularly in calculating the temperature dependence of reaction rates. Given the rate constant and the activation energy at a certain temperature, one can find the rate constant at a different temperature
Explanation:The question pertains to the use of the Arrhenius equation, which calculates the temperature dependence of reaction rates. The equation is k = A * e^(-Ea/RT), where k is the rate constant, A is the frequency factor, Ea is the activation energy, R is the gas constant, and T is the temperature in Kelvin.
The given reaction has a rate constant (k) of 1.35 x 10² s-1 at 25.0°C (or 298.15K). The activation energy (Ea) is given as 85.6 kJ/mol. To find the rate constant at another temperature, rearrange the Arrhenius equation to solve for A, substitute the given values for Ea, k, R and T to find A. Then, plug the calculated A, given Ea, the new temperature in Kelvin (75.0°C or 348.15K), and R into the Arrhenius equation to solve for the new rate constant, k.
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