A solution containing fluoride ions will be weakly basic because fluoride reacts with water to produce hydroxide ions, raising the pH slightly above 7.
Unlike chloride ions, which make a neutral solution, fluoride ions make the solution weakly basic.
When determining the pH of a solution containing fluoride ions (F¯), it is important to understand how fluoride interacts with water. Sodium fluoride (NaF) dissolves in water, producing fluoride ions, which then weakly react with water:
F¯ (aq) + H₂O (l) ⇒ HF (aq) + OH¯ (aq)
This reaction creates hydroxide ions (OH¯), making the solution weakly basic. Thus, while a chloride ion solution is neutral, a fluoride ion solution will have a pH slightly above 7 due to the weak base formed.
What is the maximum mass of sugar that could be dissolved in 1.3 l of water?
Which of the following correctly describes voltage difference?
The best description of voltage is: Difference in potential energy per unit charge when measured between two points.
The correct answer is option C.
Voltage, often referred to as electric potential difference or electric potential, is a fundamental concept in electricity and represents the electric potential energy per unit charge between two points in an electric field. It is typically measured in volts (V).
Here's an explanation of why the other options are not accurate:
a. Amount of charge stored by a battery: Voltage is related to the potential energy difference, not the amount of charge stored.
b. Amount of power stored by a battery: Voltage is not a measure of power; it's a measure of electric potential.
d. Amount of potential energy at a given location: This option is somewhat close but lacks the specific reference to the difference in potential energy between two points, which is essential for voltage.
e. Difference in charge between two points: Voltage is not a measure of the difference in charge but rather the difference in potential energy per unit charge.
In summary, voltage is a measure of the potential energy difference per unit charge between two points in an electric field. It is crucial for understanding how electrical circuits work and plays a fundamental role in electricity and electronics making option C the correct answer.
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The question probable may be:
Which of the following best describes voltage?
a. Amount of charge stored by a battery
b. Amount of power stored by a battery
c. Difference in potential energy per unit charge when measured between two points
d. Amount of potential energy at a given location
e. Difference in charge between two points
What is the change in oxidation number of sulfur when the dithionite anion, s2o42−, is converted to so2 in an oxidation-reduction reaction? does each sulfur atom gain or lose electrons in the reaction? is sulfur oxidized or reduced in the reaction?
How much chalcopyrite had to be mined to produce 100 pennies if reaction 1 had a percent yield of 68.00 % and all other reaction steps had yield of 100%?
Answer:
[tex]m_{CuFeS_2}=1273.8gCuFeS_2[/tex]
Explanation:
Hello,
In this case, the set of chemical reactions are shown below:
(1) 2 CuFeS₂ + 3 O₂ ----> 2 CuS + 2 FeO + 2 SO₂
(2) 2 FeO + SiO₂ ----> 2 FeSiO₃
(3) 2 CuS ----> Cu₂S + S
(4) Cu₂S + S + O₂ ----> 2 Cu + 2 SO₂
In such a way, the pennies are assumed to be 100% copper, and each penny has about 3.0 g of copper, so based on the 4th reaction, we compute moles of Cu₂S and pass through until the 1st reaction as shown below:
[tex]n_{Cu_2S}=100pennies*\frac{3.0gCu}{1penny}*\frac{1molCu}{63.5gCu}*\frac{1molCu}{2molCu} \\n_{Cu_2S}=2.36molCu_2S[/tex]
Now, from the 3rd reaction we compute the moles of CuS:
[tex]n_{CuS}=2.36molCu_2S*\frac{2molCuS}{1molCu_2S}=4.72molCuS[/tex]
2nd reaction is needless, so we proceed to compute CuS's theoretical amount since the 4.72 mol of CuS are said to be actually obtained (real amount) as shown below:
[tex]n_{CuS}^{theoretical}=\frac{n_{CuS}^{real}}{Y}=\frac{4.72molCuS}{0.68} \\n_{CuS}^{theoretical}=6.94molCuS[/tex]
Now, we develop the shown-below stoichiometric relationship between CuS and the chalcopyrite to compute the required amount to be mined in grams, for example
[tex]m_{CuFeS_2}=6.94molCuS*\frac{2molCuFeS_2}{2molCuS}*\frac{183.54gmolCuFeS_2}{1molCuFeS_2} \\m_{CuFeS_2}=1273.8gCuFeS_2[/tex]
Best regards.
For the reaction bro3- + 5br- + 6h+ → 3br2 + 3h2o at a particular time, -δ [bro3-]/δt = 1.5 × 10-2 m/s. what is -δ [br-]/δt at the same instant?
Answer:
7.5 M/s
Explanation:
The equation of Reaction is given as;
BrO^3- + 5Br^- + 6H^+ --------------> 3Br2 + 3H2O. ----------------------------(1)
Rate of Reaction is the speed in which reaction take place for the transformation of reactants to products.
For the reaction (1) above;
===> - (∆[BrO^3-]/ ∆t) = -(∆Br^-])/∆t = -∆[H^+] /∆t = ∆[Br2]/∆t.
Notice from above that there is negative signs at the Change in the reacti species. This is so, because the Reactants is been used up in the reaction to produce the products
NB : I did not raise the number of the moles to the power of each species to avoid clumsiness.
We are given that; - (∆[BrO^3-]/ ∆t) = 1.5 × 10^-2 m/s; -(∆Br^-])/∆t = x m/s.
1 mole of BrO3^- = 5 mole of Br^-
So, 5 × 1.5 ×10^-2 .
= 7.5 × 10 ^-2 M/s
Complete the equations showing how 2−phenylethanol (c6h5ch2ch2oh) could be prepared from 2−phenylethanoic acid (c6h5ch2co2h) as the starting material.
2-Phenylethanol is prepared from 2-phenylethanoic acid by reducing the carboxylic acid group using lithium aluminum hydride (LiAlH4). The reaction replaces the oxygen in the carboxyl group with a hydrogen, yielding the alcohol.
The conversion of 2-phenylethanoic acid (C6H5CH2CO2H) to 2-phenylethanol (C6H5CH2CH2OH) involves a reduction reaction. One common method to achieve this transformation is to use a reducing agent, such as lithium aluminum hydride (LiAlH4). Here's the reaction:
[tex]\[ \text{C}_6\text{H}_5\text{CH}_2\text{CO}_2\text{H} + \text{LiAlH}_4 \rightarrow \text{C}_6\text{H}_5\text{CH}_2\text{CH}_2\text{OH} + \text{LiAl(OH)}_4 \][/tex]
In this equation:
- C6H5CH2CO2H represents 2-phenylethanoic acid.
- LiAlH4 is lithium aluminum hydride, a powerful reducing agent.
- C6H5CH2CH2OH represents 2-phenylethanol.
- LiAl(OH)4 is lithium aluminum tetrahydroxide, a byproduct of the reduction.
This reaction reduces the carboxylic acid group in 2-phenylethanoic acid to the alcohol group in 2-phenylethanol. The reduction involves the addition of hydrogen (H) from LiAlH4 to the carbon-oxygen double bond of the carboxylic acid, resulting in the formation of the alcohol.
The synthesis of 2-phenylethanol from 2-phenylethanoic acid involves reducing the acid to the corresponding alcohol using sodium borohydride (NaBH₄) as a reducing agent. This reaction converts the 2-phenylethanoic acid to 2-phenylethanol with the release of water.
The preparation of 2-phenylethanol (C₆H₅CH₂CH₂OH) from 2-phenylethanoic acid (C₆H₅CH₂CO₂H) can be carried out through the following steps:
Reduction of 2-phenylethanoic acid to 2-phenylethanol: This reaction involves the conversion of the acid to the corresponding alcohol. Sodium borohydride (NaBH₄) can be used as a reducing agent.2-phenylethanoic acid is reduced to 2-phenylethanol using sodium borohydride:
C₆H₅CH₂CO₂H + 4[H] → C₆H₅CH₂CH₂OH + H₂O
In this reaction, sodium borohydride (NaBH₄) serves as the source of hydrogen (H).
This completes the transformation of 2-phenylethanoic acid to 2-phenylethanol.
The thermal isomerization of cyclopropane to propene has a rate constant of 5.95 × 10−4 s−1 at 500oc. calculate the value of the gibbs energy of activation, ∆g⊖‡ for this reaction.
Using the Arrhenius equation and an estimated pre-exponential factor, we calculated the Gibbs energy of activation for cyclopropane isomerization to be 161,226 J/mol. This value indicates the energy barrier that molecules need to overcome for the reaction to proceed.
Calculation of Gibbs Energy of Activation for Cyclopropane Isomerization
The thermal isomerization of cyclopropane to propene requires overcoming an energy barrier, represented by the Gibbs energy of activation, ΔG⁰‡. We can calculate this value using the Arrhenius equation and the provided rate constant at a specific temperature.
Steps:
Convert temperature to Kelvin: T = 500°C + 273.15 K = 773.15 K
Plug values into the Arrhenius equation:
k = A * exp(-ΔG⁰‡ / RT)
where:
k = rate constant (5.95 × 10^-4 s^-1)
A = pre-exponential factor (unknown)
R = gas constant (8.314 J/mol·K)
T = temperature (773.15 K)
Rearrange the equation to solve for ΔG⁰‡:
ΔG⁰‡ = -RT * ln(k / A)
Estimate the pre-exponential factor: A for this reaction is typically in the range of 10^8 - 10^13 s^-1. For our calculation, assume A = 10^10 s^-1.
Calculate ΔG⁰‡:
ΔG⁰‡ = -8.314 J/mol·K * 773.15 K * ln(5.95 × 10^-4 s^-1 / 10^10 s^-1) = 161,226 J/mol
Therefore, the Gibbs energy of activation for the thermal isomerization of cyclopropane to propene is approximately 161,226 J/mol.
Given that the vapor pressure of water is 17.54 torr at 20 °c, calculate the vapor-pressure lowering of aqueous solutions that are 1.80 m in (a) sucrose, c12h22o11, and (b) sodium chloride. assume 100% dissociation for electrolytes.
1)
b(solution) = 1,80 m = 1,80 mol/kg..
If we use 1000 g of water to make solution:
m(H₂O) =
1000 g ÷ 1000 g/kg = 1 kg.
n(sucrose - C₁₂O₂₂O₁₁) = b(solution) · m(H₂O).
n(C₁₂O₂₂O₁₁) =
1,8 mol/kg · 1 kg.
n(C₁₂O₂₂O₁₁) =
1,8 mol.
n(H₂O)
= 1000 g ÷ 18 g/mol.
n(H₂O)
= 55,55 mol.
Mole fraction of solvent = 55,55 mol ÷
(55,55 mol + 1,8 mol) = 0,968.
Raoult's Law: p(solution) = mole fraction of solvent · p(solvent).
p(solution) = 0,968 · 17,54 torr = 16,99 torr.
Δp = 17,54 torr - 16,87 torr = 0,55 torr.
2) b(solution) = 1,80 m = 1,80 mol/kg..
If we use 1000 g of water to make solution:
m(H₂O) =
1000 g ÷ 1000 g/kg = 1 kg.
n(NaCl) = b(solution) · m(H₂O).
n(NaCl) = 1,8 mol/kg · 1 kg.
n(NaCl) = 1,8 mol.
n(H₂O) =
1000 g ÷ 18 g/mol.
n(H₂O) =
55,55 mol.
i(NaCl) = 2; Van 't Hoff factor. Because dissociate on one
cation and one anions.
Mole fraction of solvent = 55,55 mol ÷ (55,55 mol + 1,8 mol · 2) = 0,94.
Raoult's Law: p(solution) = mole fraction of
solvent · p(solvent)
p(solution) = 0,94 · 17,54 torr = 16,47 torr.
Δp = 17,54 torr - 16,47 torr = 1,06 torr.
The vapor-pressure lowering for a sucrose solution is 31.572 torr and for a sodium chloride solution is 63.144 torr, both computed using the colligative property of vapor pressure lowering.
Explanation:To calculate the vapor-pressure lowering, we'll use the formula for the colligative property of vapor pressure lowering: ΔP = P0 * i * m. Here, ΔP is the vapor pressure lowering, P0 is the vapor pressure of the pure solvent, i is the van 't Hoff factor (the number of particles the solute splits into), and m is the molality of the solution.
(a) For sucrose, we consider it to be nonvolatile and non-ionizing. The van 't Hoff factor is 1 (because sucrose does not dissociate into ions). So, ΔP = 17.54 torr * 1 * 1.80 m = 31.572 torr.
(b) For sodium chloride, assuming 100% dissociation, it splits into two ions (Na+ and Cl-). So, the van 't Hoff factor is 2. Therefore, ΔP = 17.54 torr * 2 * 1.80 m = 63.144 torr.
Remember, a larger number of solute particles will greater lower the vapor pressure of the solvent.
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What is the osmotic pressure of a solution made by dissolving 75.0 g of glucose, c6h12o6, in enough water to form 700.0 ml of solution at 45.0 ∘c ? express your answer to three significant figures and include the appropriate u?
Draw the major product(s) of electrophilic chlorination of p-cyanobenzoic acid.
A compound decomposes by a first-order process. if 25.0% of the compound decomposes in 60.0 minutes, the half-life of the compound is _________.
a. 65 minutes
b. 198 minutes
c. 120 minutes
d. 145 minutes
e. 180 minutes
if the theoretical yield of RX is 56.0 g , what is the percent yield ?
Select all that apply. Atoms are made up of _____. neurons photons protons neutrons
An automobile antifreeze mixture is made by mixing equal volumes of ethylene glycol (d = 1.114 g/ml; = 62.07 g/mol) and water (d = 1.00 g/ml) at 20°c. the density of the mixture is 1.070 g/ml. express the concentration of ethylene glycol as:
The concentration of ethylene glycol in the antifreeze mixture can be calculated by determining the mole fraction. First, find the moles of ethylene glycol and water, then use the mole fraction to find the concentration. The final concentration of ethylene glycol is 0.0179 mol/kg.
Explanation:To calculate the concentration of ethylene glycol in the antifreeze mixture, we'll first need to find the mole fraction, which involves calculating the molar amounts of both ethylene glycol and water.
Since 1ml of each liquid is used, we have 1.114g of ethylene glycol and 1.00g of water. The molar mass of ethylene glycol is 62.07 g/mol, so 1.114g / 62.07 g/mol = 0.0179 moles of ethylene glycol. The molar mass of water is 18.02 g/mol, so 1.00g / 18.02 g/mol = 0.0555 moles of water.
The mole fraction (X) of a substance is the number of moles of that substance divided by the total number of moles of all substances in the solution. So, X_ethylene glycol = 0.0179 / (0.0179 + 0.0555) = 0.244.
Finally, to express concentration of ethylene glycol as molality, we use the formula molality = moles of solute/kg of solvent. Hence, molality = 0.0179 moles/1g = 0.0179 mol/kg.
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The concentration of ag+ in a solution saturated with ag2c2o4(s) is 1.7 × 10-4 m. calculate ksp for ag2c2o4.
Consider the first-order reaction shown here. the yellow spheres in the pictures to the right represent the reactant,
a. the blue spheres represent the product,
b. a → b (a) what is the rate constant of the reaction? s−1 (b) how many a (yellow) and b (blue) molecules are present at t = 20 s? yellow molecules blue molecules (b) how many a (yellow) and b (blue) molecules are present at t = 30 s? yellow molecules blue molecules
The reaction demonstrates exponential decay with a rate constant (\(K\)) of approximately 0.069. After 20 seconds, 4 yellow spheres remain, and after 30 seconds, only 2 yellow spheres persist.
In this scenario, the rate constant (K) for the reaction is determined by using the formula [tex]\(K = \frac{\log 2}{t_{1/2}}\),[/tex] where [tex]\(t_{1/2}\)[/tex] represents the half-life of the reaction. The experiment involves two jars labeled at different times (t = 0 and t = 10\, containing yellow spheres (representing reactants A) and blue spheres (representing products B).
Given that, after 10 seconds, the number of yellow spheres decreases from 16 to 8, indicating one half-life [tex](\(t_{1/2} = 10[/tex] seconds), K is calculated as [tex]\(K = \frac{\log 2}{10} \approx 0.069\).[/tex]
a) **Calculation of \(K\):**
[tex]\[ K = \frac{\log 2}{10} = 0.069 \][/tex]
b) **After 20 seconds (2 half-lives):**
[tex]\[ \text{Yellow spheres} = \frac{16}{2^2} = 4, \quad \text{Blue spheres} = 16 - 4 = 12 \][/tex]
c) **After 30 seconds (3 half-lives):**
[tex]\[ \text{Yellow spheres} = \frac{16}{2^3} = 2, \quad \text{Blue spheres} = 16 - 2 = 14 \][/tex]
The trend indicates that, with time, the yellow spheres (representing reactants) exhibit exponential decay, while the blue spheres (representing products) increase correspondingly.
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If two protons and two neutrons are added to the nucleus of a carbon atom, what nucleus does it become?
A first-order reaction has a half-life of 29.2 s . how long does it take for the concentration of the reactant in the reaction to fall to one-sixteenth of its initial value?
Answer is: it takes 116,8 seconds to fall to one-sixteenth of its initial value
The half-life for the chemical reaction is 29,2 s and is
independent of initial concentration.
c₀
- initial concentration the reactant.
c - concentration of the reactant remaining at time.
t = 29,2 s.
First calculate the rate constant k:
k = 0,693 ÷ t = 0,693 ÷ 29,2 s = 0,0237 1/s.
ln(c/c₀) = -k·t₁.
ln(1/16 ÷ 1) = -0,0237 1/s ·
t₁.
t₁ = 116,8 s.
A sample of potassium chlorate (15.0 g) is dissolved in 201 g of water at 70 °c with precautions taken to avoid evaporation of any water. the solution is cooled to 30.0 °c and no precipitate is observed. this solution is __________.
a.hydrated
The potassium chlorate remains fully dissolved in the water even when the temperature is lowered, thus the solution is considered to be saturated.
Explanation:The potassium chlorate in the question is fully dissolved in water at a certain temperature (70°C) and it stays in solution even when the temperature is lowered to 30°C. This indicates that the complete dissolution of the potassium chlorate was achieved, and the solution is considered to be saturated. A saturated solution is one in which the maximum amount of solute has been dissolved in a solvent at a given temperature and below that temperature, no precipitate forms because the solute remains in solution.
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What is the relationship between an observation and an inference?
A. An observation is fact, but an inference is only opinion.
B. An observation can be proven or disproven, but an inference cannot.
C. An inference is an attempted explanation based on observations.
D. An inference is based on fact, but an observation is based on experimentation.
Final answer:
An inference is an explanation based on observations which are facts or data collected through sensory experience or scientific measurement. Observations can lead to inferences, where logic and knowledge are applied to the observed facts to draw conclusions.
Explanation:
The relationship between an observation and an inference is that an inference is an attempted explanation based on observations. An observation is the act of noting and recording something with instruments and measuring devices, whereas an inference is the conclusion reached using logic and knowledge after the observation. While observations are the direct results of experiments consciously made to determine facts, inferences are the reasoned conclusions or interpretations of what the observations mean. In the context of the student's question, observations are regarded as facts established through sensory experience or scientific measurement, and inferences are logical conclusions drawn from these observations.
The reaction 2a → a2 was experimentally determined to be second order with a rate constant, k, equal to 0.0265 m–1min–1. if the initial concentration of a was 4.25 m, what was the concentration of a (in m) after 180.0 min?
Answer : The final concentration was 0.199 M
Explanation :
The expression used for second order kinetics is:
[tex]kt=\frac{1}{[A_t]}-\frac{1}{[A_o]}[/tex]
where,
k = rate constant = [tex]0.0265M^{-1}min^{-1}[/tex]
t = time = 180.0 min
[tex][A_t][/tex] = final concentration = ?
[tex][A_o][/tex] = initial concentration = 4.25 M
Now put all the given values in the above expression, we get:
[tex]0.0265\times 180.0=\frac{1}{[A_t]}-\frac{1}{4.25}[/tex]
[tex][A_t]=0.199M[/tex]
Therefore, the final concentration was 0.199 M
In which circumstance is the transition state more similar to the products of the reaction?
The solubility of KNO3(s) in water increases as the..
a. Pressure on the solution decreases
b. Temperature of the solution increases
c. pressure on the solution increases
d. Temperature of the solution decreases
TRUE of FALSE
During the process of cellular respiration, water becomes oxygen.
Answer:
False.
Explanation:
Hello,
During cellular respiration, glucose reacts with oxygen to produce carbon dioxide, water and energy based on:
[tex]C_6H_{12}O_6+6O_2-->6CO_2+6H_2O+Energy[/tex]
Best regards.
A solution of naoh(aq) contains 11.6 grams of naoh in 129 ml of solution. calculate the ph at 25◦c.
At a certain temperature, a 21.0-l contains holds four gases in equilibrium. their masses are: 3.5 g so3, 4.6 g so2, 13.5 g n2, and 0.98 g n2o. what is the value of the equilibrium constant at this temperature for the reaction of so2 with n2o to form so3 and n2 (balanced with lowest whole-number coefficients)?
Final answer:
Equilibrium constant values are crucial in determining the extent of a reaction. Calculations involving equilibrium constants help predict reaction outcomes and concentrations at equilibrium.
Explanation:
Equilibrium Constant (K) is a value that indicates the extent to which a reaction will proceed at a certain temperature. It is calculated using the concentrations of products and reactants at equilibrium. The equilibrium constant is specific to a particular reaction at a specific temperature.
For the reaction SO₂(g) + NO₂(g) → SO₃(g) + NO(g), the equilibrium partial pressure for SO₃ can be calculated using the equilibrium constant (K) value and the initial partial pressures of the gases involved. By plugging in the given values and using the equation for K, you can find the equilibrium partial pressure for SO₃.
Given the reaction 2 SO₂(g) + O₂(g) → 2 SO₃(g) with an equilibrium constant of 7.9 x 10¹, you can calculate the equilibrium constant for the reverse reaction by taking the reciprocal of the original equilibrium constant. This allows you to determine the equilibrium constant for the reverse reaction at the same temperature.
What is the density of a piece of metal in g/cm3 if its mass is determined to be 42.20 g and it is in the shape of a cube, with edge length of 2.50 cm?
Answer : The density of a piece of metal is [tex]2.7008g/cm^3[/tex]
Explanation :
To calculate the volume of cube, we use the formula:
[tex]V=a^3[/tex]
where,
a = edge length of cube
Given :
Edge length of cube = 2.50 cm
Volume of cube = [tex](2.50cm)^3=15.625cm^3[/tex]
Given :
Mass of metal = 42.20 g
To calculate density of a substance, we use the equation:
[tex]Density=\frac{Mass}{Volume}[/tex]
Putting values in above equation, we get:
[tex]\text{Density of metal}=\frac{42.20g}{15.625cm^3}=2.7008g/cm^3[/tex]
Hence, the density of a piece of metal is [tex]2.7008g/cm^3[/tex]
List four greenhouse gases in the atmosphere. For each gas, describe its prevalence in the atmosphere, its natural sources, its human-induced sources, and how its concentration in the atmosphere might be changing.
The primary greenhouse gases are carbon dioxide, methane, nitrous oxide, and water vapor. They are naturally produced through processes like respiration, decomposition, and evaporation, but levels have been significantly increased due to human activities such as farming, waste treatment, and the burning of fossil fuels.
Explanation:The four main greenhouse gases are carbon dioxide, methane, nitrous oxide, and water vapor. Carbon dioxide, the most prevalent GHG, is naturally released through processes like respiration and volcano eruptions, but human activities like fossil fuel combustion have significantly increased their levels. Methane, though less plentiful, is incredibly potent. It occurs naturally in marshes and other wet environments and is also produced by human agriculture and waste treatment processes. Nitrous oxide, less common still, is released naturally by bacteria, but human sources include fertilizers and industrial activities. Lastly, water vapor, the most abundant GHG, is released through evaporation and plant transpiration, and its levels are also indirectly impacted by human GHG emissions as the warmer the atmosphere, the more water vapor it can hold.
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He main reasons why ch4 has a higher vapor pressure at a given temperature when compared to ch3cl is that
CH4 exhibits weaker London dispersion forces while CH3Cl has stronger dipole-dipole interactions due to its polar C-Cl bond, resulting in CH4 having a higher vapor pressure at the same temperature than CH3Cl.
Explanation:The main reason why CH4 has a higher vapor pressure at a given temperature when compared to CH3Cl is primarily due to the differences in the types and strengths of their intermolecular forces (IMFs). Methane (CH4) only exhibits London dispersion forces, which are the weakest type of IMFs because it is a non-polar molecule.
On the other hand, chloromethane (CH3Cl) exhibits both London dispersion forces and dipole-dipole interactions due to the presence of a polar C-Cl bond. This dipole-dipole interaction in CH3Cl is stronger than the dispersion forces in CH4, leading to stronger intermolecular attractions in CH3Cl and, consequently, a lower vapor pressure at the same temperature.
Helium has the lowest boiling point of any substance, at 4.2 k. part a what is this temperature in âc?
The temperatur e of Helium in °C = -268.8 °
Further explanationTemperature is one of the principal quantities that shows the degree of heat or cold from an object / space
Temperature is used as a guide to the level of heat energy from objects
Temperature measures thermal energy
The temperature of an object also depends on the kinetic energy of the object's molecules
Temperature cannot be measured by the surface of the hand because it is not accurate but can be measured by a thermometer. Temperature units include Celsius, Fahrenheit, Reamur or Kelvin
Boiling point and freezing point of Temperature units;
1. CelsiusBoiling point : 100 °C
Freezing point: 0 °C
2. ReamurBoiling point : 80 °R
Freezing point: 0 °R
3. FahrenheitBoiling point : 212 °F
Freezing point: 32 °F
4. KelvinBoiling point : 373 °K
Freezing point: 273 °K
Whereas the temperature conversion is
°F = (9/5) °C + 32
°R = (4/5) °C
°K = °C + 273
°C = 5/9 (°F-32)
°R = 4/9 (°F-32)
°K = 5/9 (°F-32) + 273
°C = °K - 273
°R = 4/5 (°K-273)
°F = 9/5 (°K-273) + 32
°C = (5/4) °R
°F = (9/4) °R + 32
°K = °C + 273
°K = (5/4) °R + 273
Helium at 4.2 K, then the temperature in C :
C = K - 273
C = 4.2 - 273
C = -268.8 C
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