1 mole of ch3oh(l) has a greater entropy than 1 mole of c2h5oh(l). true or false

Answer:

The answer is: A. increase; from left to right.

Explanation:

The PERIODIC TABLE that we know today is made up of columns and rows. Where the rows are known as PERIODS and the columns as GROUPS. The elements are ordered by the atomic number, it increases from left to right and from top to bottom.

The answer is: A. increase; from left to right.

Answer:

The main feature of an oxidation-reduction reaction is electron exchange.

Explanation:

Every oxeduction reaction is related to an electron transfer between the atoms and / or ions of the reactant substances.

An oxeduction reaction is characterized as a simultaneous process of electron loss and gain, as electrons lost by one atom, ion or molecule are immediately received by others.

For example, a copper sulfate (CuSO4 (aq)) solution is blue due to the presence of Cu2 + ions dissolved in it. If we place a metal zinc plate (Zn (s)) in this solution, over time we may notice two modifications: the color of the solution will be colorless and a metallic copper deposit will appear on the zinc plate.

Therefore, the reaction that occurs in this case is as follows: Zn (s) + CuSO4 (aq) → Cu (s) + ZnSO4 (aq). Note that there was an electron transfer from zinc to copper. Analyzing separately the transformation that occurred in each of these elements, we have: Zn (s) → Zn2 + (aq). Zinc has lost 2 electrons from metal zinc to cation. In this case, zinc has oxidized. Cu2 + (aq) → Cu (s)  Already with the copper the opposite happened, it gained 2 electrons, from cation copper II to metallic copper. Copper has been reduced.

This explains the two changes observed, as the solution became colorless because the copper ions turned to metallic copper, which settled on the zinc plate. Since there was a simultaneous loss and gain of electrons, this reaction is an example of a redox reaction.

Answer:

The Nazca plate forms the southeastern part of the Pacific plate. The Nazca and the Pacific plate share both divergent and transform type of plate boundary. The Pacific and the Nazca plate are separating at an increasing rate of about 122-142mm/year. These are the regions where the rate of tectonic activity is very high.

The Nazca Plate and the South American Plate are also converging at a rate of about 62mm/year, being the fastest subduction rate on earth.

The molar concentration of MgCl₂ that is isotonic to the potato would be lower than that of NaCl. This is because MgCl₂ produces three ions in solution compared to the two ions from NaCl, affecting their respective osmolarities.

The molar concentration of MgCl₂ that is isotonic to the potato would be lower than the molar concentration of NaCl that is isotonic to the potato. This difference is because MgCl₂ dissociates into three ions (one Mg2⁺ and two Cl⁻) in solution, whereas NaCl dissociates into only two ions (one Na⁺ and one Cl⁻).

Since the isotonic condition depends on the total number of particles (osmolarity) in the solution, a smaller molar concentration of MgCl₂ can achieve the same osmolarity as a higher molar concentration of NaCl.

So, the dissociation of solutes affects their molar concentrations required to be isotonic. MgCl₂ dissociates into more particles than NaCl, leading to a lower molar concentration of MgCl₂ needed to match the osmolarity for isotonicity with a potato compared to NaCl.

Heat is applied to the cover and empty crucible to remove moisture, because the reading and test results of the chemical are affected by the presence of water.

Heat is defined as a type of energy that moves through systems or items with varying temperatures. Increased kinetic energy  of a substance's constituent particles is another effect of heat. Conduction, convection, and radiation are the three mechanisms through which thermal energy is transferred.

A crucible will probably display a weight that differs from what it would if it were at the same temperature as the balance compartment if it is not at that temperature. Due to the creation of convection currents that impact the apparent mass, the weight will vary depending on the temperature, being slightly less or higher in the case of heat.

Thus, heat is applied to the cover and empty crucible to remove moisture, because the reading and test results of the chemical are affected by the presence of water.

To learn more about heat, refer to the link below:

https://brainly.com/question/1429452

#SPJ2

To calculate the pH of a buffer solution, you can use the Henderson-Hasselbalch equation. In this case, you can calculate the initial concentration of the conjugate base and acid using the equation. Then, find the new pH of the buffer solution after adding NaOH.

To calculate the pH of a buffer solution, you can use the Henderson-Hasselbalch equation:

pH = pKa + log([conjugate base]/[acid])

In this case, the initial pH of the buffer is 4.19, so you can calculate the initial concentration of the conjugate base and acid using the equation.

Then, you can calculate the new concentrations of the conjugate base and acid after adding 0.010 mol of NaOH and use the Henderson-Hasselbalch equation again to find the new pH of the buffer solution.

Using the given Ka value of 6.5 x 10^-5 for benzoic acid and the initial concentrations of the buffer solution, you can calculate the initial pH and the new pH after adding NaOH.

The final pH of the buffer solution after the addition of NaOH is approximately 4.37.

The final pH of the buffer solution after the addition of NaOH can be calculated using the Henderson-Hasselbalch equation:

[tex]\[ \text{pH} = \text{pKa} + \log \left( \frac{[\text{A}^-]}{[\text{HA}]} \right) \][/tex]

where [tex]\([\text{A}^-]\)[/tex] is the concentration of the benzoate ion and [tex]\([\text{HA}]\)[/tex] is the concentration of benzoic acid.

Given that the initial pH is 4.19, we can find the [tex]\(\text{pKa}\)[/tex] of benzoic acid:

[tex]\[ \text{pKa} = \text{pH} - \log \left( \frac{[\text{A}^-]}{[\text{HA}]} \right) \][/tex]

Since the initial concentrations of benzoic acid and sodium benzoate are both 0.10 M, the ratio [tex]\(\frac{[\text{A}^-]}{[\text{HA}]}\)[/tex] is 1, and [tex]\(\log(1) = 0\)[/tex], so:

[tex]\[ \text{pKa} = 4.19 \][/tex]

Now, upon the addition of 0.010 mol of NaOH to 500.0 ml of buffer solution, we need to calculate the new concentrations of benzoic acid and sodium benzoate. The NaOH will react with benzoic acid to produce sodium benzoate:

[tex]\[ \text{C}_6\text{H}_5\text{COOH} + \text{NaOH} \rightarrow \text{C}_6\text{H}_5\text{COONa} + \text{H}_2\text{O} \][/tex]

The amount of benzoic acid that reacts is 0.010 mol, which will produce the same amount of sodium benzoate. The initial moles of benzoic acid and sodium benzoate are both 0.050 mol (0.10 M * 0.500 L). After the reaction, the moles of benzoic acid will be 0.040 mol, and the moles of sodium benzoate will be 0.060 mol. The new concentrations are:

[tex]\[ [\text{HA}]' = \frac{0.040 \text{ mol}}{0.500 \text{ L}} = 0.080 \text{ M} \][/tex]

[tex]\[ [\text{A}^-]}' = \frac{0.060 \text{ mol}}{0.500 \text{ L}} = 0.120 \text{ M} \][/tex]

Now we can use the Henderson-Hasselbalch equation to find the new pH:

[tex]\[ \text{pH} = \text{pKa} + \log \left( \frac{[\text{A}^-]}'}{[\text{HA}]'} \right) \][/tex]

[tex]\[ \text{pH} = 4.19 + \log \left( \frac{0.120}{0.080} \right) \][/tex]

[tex]\[ \text{pH} = 4.19 + \log(1.5) \][/tex]

[tex]\[ \text{pH} = 4.19 + 0.176 \][/tex]

[tex]\[ \text{pH} = 4.366 \][/tex]

To distinguish between cyclohexane and cyclohexene using IR spectroscopy, identify the presence or absence of an absorbance peak around 1600-1680 cm⁻¹, which indicates a C=C double bond in cyclohexene.

To distinguish between cyclohexane and cyclohexene using infrared (IR) spectroscopy, you would look for specific absorbance peaks in the IR spectrum that correspond to the functional groups present in each compound. Cyclohexane, being a saturated hydrocarbon, would mainly show peaks associated with C-H stretching vibrations. In contrast, cyclohexene contains a carbon-carbon double bond (C=C) and would exhibit characteristic absorbance peaks around 1600-1680 cm⁻¹ associated with the C=C stretching vibrations in addition to the C-H stretching vibrations.

The absence of a peak in the 1600-1680 cm⁻¹ region would suggest the compound is cyclohexane, whereas the presence of such a peak indicates cyclohexene. This key difference allows chemists to use IR spectroscopy to identify the presence or absence of a double bond in the structure of the molecule, thus differentiating between the two compounds.

https://brainly.com/question/32235294

#SPJ6

Explanation :

Extraction : It is a separation technique in which one compound is separated from a mixture of compounds.

In  a chemical process, the solution may not contain only the desired product but there maybe a mixture of products present.

So, for obtaining the desired product we need to get rid of the other products in a mixture like catalyst (if used), other by products or unreacted starting material.

For a compound to be extracted it has to be soluble in the extracting solvent.

Therefore, this process is based on the miscibility of solute and solvent in a mixture.

Extraction is a useful method of “pre-purification” of organic compounds in order to remove impurities. It is based on different solubilities of components in the mixture.

Further Explanation:

Purification of organic compounds:

The method of purification depends on the nature of substances and the type of impurities present in them. There are several methods for purification of compounds as follows:

1. Chromatography

2. Steam distillation

3. Fractional distillation

4. Simple distillation

5. Simple crystallization

6. Fractional crystallization

7. Sublimation

8. Azeotropic distillation

Extraction is the process to separate the desired substance mixed with some impurities. The mixture is added with a solvent such that the desired substance is soluble in it whereas the impurities are insoluble in it. Any substance is never so pure that it is free from impurities. So the undesirable substances are to necessary to be removed from the mixture and therefore extraction is an essential procedure in order to remove impure substances from the mixtures.

Extraction makes use of two different phases that are immiscible with each other. It is carried out on the basis of relative solubilities of different substances present in the mixture.

Learn more:

1. The reason for the acidity of water https://brainly.com/question/1550328

2. Reason for the acidic and basic nature of amino acid. https://brainly.com/question/5050077

Answer details:

Grade: College

Subject: Chemistry

Chapter: Solvent extraction

Keywords: extraction, purification, organic compounds, sublimation, crystallization, distillation, mixtures, impurities, chromatography, different phases, undesirable substances.

Answer:

The answer is B I took the test

Explanation:

The quantum numbers that describe valid orbitals are;

The sets of quantum numbers that can be used to describe an electron are;

The principal quantum number takes on positive integer values from 1 to infinity.

Orbital quantum number takes positive integer values from 0 to (n - 1).

Magnetic quantum number takes on values from -l to +l.

Spin quantum number can only take values of ±1/2.

In view of these, the possible valid orbitals are;

Learn more: https://brainly.com/question/18835321

The formula we can use here is:

A = Ao e^(-kt)

where A is the amount remaining, Ao is the initial amount, A/Ao is the fraction we need, k is the rate constant and t is number of years passed

First we need to find k using the half life formula:

t1/2 = ln 2 / k

The half life of C 14 is t1/2 = 5730 years

therefore k is:

k = ln 2 / 5730 years

k = 1.21 x 10^-4 years-1

Going back:

A/Ao = e^(-kt)

A/Ao = e^(-1.21 x 10^-4 years-1 * 18000 years)

A/Ao = 0.1133

So only about 11.33% remains.

The optically inactive stereoisomer of 1,3-cyclopentanediol is the meso isomer, where both -OH groups are on the same side of the cyclopentane ring, creating a plane of symmetry.

The question asks us to draw the optically inactive stereoisomer(s) of 1,3-cyclopentanediol. To be optically inactive, the molecule must not be chiral. A molecule is chiral if it cannot be superimposed on its mirror image, meaning it has at least one chiral center. 1,3-cyclopentanediol can have chiral centers at the two carbon atoms bearing the OH groups (C1 and C3).

To make it optically inactive, we need to eliminate any chiral centers by arranging the substituents so that the molecule is symmetrical.

Therefore, the optically inactive isomer of 1,3-cyclopentanediol must have both OH groups on the same side of the cyclopentane ring (either both above or both below the plane), making it a meso compound and achiral. This structure is known as the meso form.

Final answer:

The chemical formula for calcium chloride is CaCl2. It is composed of calcium ions (Ca2+) and chloride ions (Cl-).

Explanation:

Calcium chloride is an ionic compound, composed of calcium ions (Ca2+) and chloride ions (Cl-). The chemical formula for calcium chloride is CaCl2.

When calcium donates two electrons to two chlorine atoms, it forms Ca2+ and two Cl- ions. The oppositely charged ions attract each other, resulting in the formation of calcium chloride.

Methanol is soluble in water due to its polarity and the formation of hydrogen bonds. It does not form ions in its pure state or when dissolved in water.

Water is polar, which means that substances that are polar or ionic will dissolve in it. Methanol, which has the OH group, is a polar molecule. Therefore, it is soluble in water. Both water and methanol are liquid and can mix together well, so the term 'miscible' can be used to describe their solubility.

In addition to its solubility, hydrogen bonding occurs between methanol and water molecules. This phenomenon accounts for the solubility of methanol in water. Methanol forms hydrogen bonds with water through the interaction between the OH group of methanol and water molecules.

Methanol does not form ions either in its pure state or when dissolved in water. It remains in its molecular form in both cases.

To solve this problem, we simply have to find for the value which corresponds to a unit of unit energy per unit mass substrate. That is:

metabolic heat = 21 kJ / g X * (0.4 g X / g S)

metabolic heat = 8.4 kJ / g S

Elements with a valence electron configuration of ns2np6 include oxygen, sulfur, and chlorine.

The valence electron configuration ns2np6 corresponds to the noble gas electron configuration of elements in Group 18 (the noble gases) of the periodic table, such as neon (atomic number 10) with the electron configuration of 1s²2s²2p⁶. The elements with ns2np6 valence electron configuration include oxygen (atomic number 8) with the electron configuration of 1s²2s²2p⁴, sulfur (atomic number 16) with the electron configuration of 1s²2s²2p⁶3s²3p⁴, and chlorine (atomic number 17) with the electron configuration of 1s²2s²2p⁶3s²3p⁵.

https://brainly.com/question/28977387

#SPJ3

The compounds ranked in order from largest mass percent of sodium to the smallest mass percent of sodium are Sodium hydroxide, Sodium phosphate, and Sodium nitrate.

To rank the compounds in order from largest mass percent of sodium to the smallest mass percent of sodium, we need to determine the mass of sodium in each compound and compare it to the total mass of the compound.

Let's calculate the mass percent of sodium in each compound:

Therefore, the compounds ranked in order from largest mass percent of sodium to smallest mass percent of sodium are:

Learn more about  sodium here:

https://brainly.com/question/20714718

#SPJ12