why does mass of popcorn stay the same after popping it

Answer

CO2 = 494 mmHg

H2 = 190 mmHg

HCl = 41.04 mmHg

HF = 21.28 mmHg

SO2 = 12.92

H2S = 0.76 mmHg

Explanation

Given:

Composition in mole percent of the gases are:

65% CO2, 25% H2, 5.4% HCl, 2.8% HF, 1.7 % SO2 and 0.1% H2S.

The total pressure of the volcanic gas = 760 mmHg

What to find:

The partial pressure of each of these gases.

Solution:

The partial pressure of each of the gases can be calculated using the % composition and the total pressure.

For 65% CO2

Its partial pressure = (65/100) x 760 mmHg = 494 mmHg

For 25% H2

Its partial pressure = (25/100) x 760 mmHg = 190 mmHg

For 5.4% HCl

Its partial pressure = (5.4/100) x 760 mmHg = 41.04 mmHg

For 2.8% HF2

Its partial pressure = (2.8/100) x 760 mmHg = 21.28 mmHg

For 1.7% SO2

Its partial pressure = (1.7/100) x 760 mmHg = 12.92 mmHg

For 0.1% H2S

Its partial pressure = (0.1/100) x 760 mmHg = 0.76 mmHg

Peter Goemans  is the founder of Blue Bell .

Blue Bell was established in 1907 as a means of utilising extra cream from nearby dairy producers. Brenham Creamery Company, the predecessor to the business that is today known as Blue Bell, was founded in 1907. The men who founded it thought the name made sense because it was in the sleepy Texas town of Brenham.

Blue Bell may soon resume selling ice cream after a widespread recall forced the company to lay off 1,500 workers in May. Following a widespread product recall this past spring, Sid Bass, a Fort Worth oil millionaire, has now accepted a "substantial investment" from the Brenham, Texas-based ice cream firm Blue Bell.

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Approximately 70.57 mL of 1.00 M NaOH should be added to 250 mL of 0.50 M CH3CO₂H to produce a buffer with a pH of 4.50.

To determine the volume of 1.00 M NaOH required to produce a buffer with a pH of 4.50 when added to 250 mL of 0.50 M CH3CO₂H, we need to consider the Henderson-Hasselbalch equation and the stoichiometry of the reaction.

The Henderson-Hasselbalch equation for a buffer solution is given as:

pH = pKa + log([A-]/[HA])

In this case, CH3CO₂H (acetic acid) acts as the weak acid (HA) and CH3COO- (acetate ion) acts as its conjugate base (A-). We are given that the desired pH is 4.50, and we can determine the pKa value for acetic acid from reference sources, which is approximately 4.75.

Using the Henderson-Hasselbalch equation, we can rearrange it to solve for the ratio [A-]/[HA]:

[A-]/[HA] = 10^(pH - pKa)

[A-]/[HA] = 10^(4.50 - 4.75) = 10^(-0.25) = 0.5623

This means that the ratio of the acetate ion to acetic acid in the buffer solution should be approximately 0.5623.

To calculate the required volume of NaOH, we need to consider the stoichiometry of the reaction. Acetic acid reacts with hydroxide ions (OH-) to form acetate ions and water:

CH3CO₂H + OH- → CH3COO- + H2O

The stoichiometric ratio between acetic acid and hydroxide ions is 1:1. Therefore, the volume of 1.00 M NaOH needed can be calculated using the equation:

Volume (NaOH) × 1.00 M = Volume (CH3CO₂H) × 0.50 M × 0.5623

Volume (NaOH) = (Volume (CH3CO₂H) × 0.50 M × 0.5623) / 1.00 M

Volume (NaOH) = (250 mL × 0.50 M × 0.5623) / 1.00 M

Volume (NaOH) ≈ 70.57 mL

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The rate of a reaction is not affected by C) the magnitude of the equilibrium constant.

The rate of a reaction is the speed at which a chemical reaction takes place, defined as proportional to the increase in the concentration of a product per unit time and to the decrease in the concentration of a reactant per unit time.

Let's consider which of the following factors affect the rate of a reaction.

The rate of a reaction is not affected by C) the magnitude of the equilibrium constant.

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Answer:

See explanation

Explanation:

First voltaic cell;

Zn(s)|Zn^2+(aq)||Cu^2+(aq)|Cu(s)

Anode;

Zinc

Cathode;

Copper

Oxidation half equation;

Zn(s)------> Zn^2+(aq) + 2e

Reduction half equation;

Cu^2+(aq) +2e -----> Cu(s)

Overall; Zn(s) + Cu^2+(aq) -----> Zn^2+(aq) + Cu(s)

E°cell = 0.34 -(-0.76) =1.1 V

Second voltaic cell;

Zn(s)|Zn^2+(aq)||Fe^2+(aq)|Fe(s)

Anode;

Zinc

Cathode;

Iron

Oxidation half equation;

Zn(s)------> Zn^2+(aq) + 2e

Reduction half equation;

Fe^2+(aq) +2e -----> Fe(s)

Overall; Zn(s) + Fe^2+(aq) -----> Zn^2+(aq) + Fe(s)

E°cell = (-0.44) -(-0.76) = 0.32 V

Third voltaic cell;

Fe(s)|Fe^2+(aq)||Cu^2+(aq)|Cu(s)

Anode;

Iron

Cathode;

Copper

Oxidation half equation;

Fe(s)------> Fe^2+(aq) + 2e

Reduction half equation;

Cu^2+(aq) +2e -----> Cu(s)

Overall; Fe(s) + Cu^2+(aq) -----> Fe^2+(aq) + Cu(s)

E°cell = 0.34 -(-0.44) = 0.78 V

Fourth voltaic cell

Cu(s)|Cu^2+(aq)||I2(aq)|C(s)|I^-(aq)

Anode;

Copper

Cathode;

Graphite rod

Oxidation half equation;

Cu(s)------> Cu^2+(aq) + 2e

Reduction half equation;

I2(aq) +2e -----> 2I^-(aq)

Overall; Cu(s) + I2(aq) -----> Cu^2+(aq) + 2I^-(aq)

E°cell = 0.54 -0.34 = 0.20 V

The concept ideal gas equation is used here to determine the volume of the carbondioxide. Combustion reactions are generally highly exothermic reactions. The volume of CO₂ is

A combustion is a chemical reaction in which a fuel undergoes oxidation as a result of the reaction with an oxidizing agent which causes the release of energy in the form of heat.

15.0 °C = 288 K

The ideal gas equation is:

PV = nRT

V = nRT / P

V = 354 × 0.0821 × 288 / 0.995 = 8412.3 L

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The following properties change across the periodic Table from group 1 to group 2

Group 1 are alkali metals that have one valence electron in the outermost orbit whereas alkaline earth metals are in group 2 have two valence electrons in the outermost orbit.

a) Ionic radius:

b) Ionisation enthalpy:

c) Density:

d) Melting point:

e) Electropositive character:

Thus, changes in properties are:

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The solubility (in g salt/100 g of H2O) of the salt is determined as 52.75 g salt.

The solubility of the salt in the given volume of water and temperature is calculated as follows;

4.8/9.1 = x/100

9.1x = 100 x 4.8

9.1x = 480

x = 480/9.1

x = 52.75 g salt

Thus, the solubility (in g salt/100 g of H2O) of the salt is determined as 52.75 g salt.

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Answer:

Neutralization reactions occur when two reactants, an acid and a base, combine to form the products salt and water.

Explanation:

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Answer: Water and NaCl is always formed

Explanation:

I hope this helped!

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Answer:

buffer action

Explanation:

the property of the solution to resist the changes in its pH value on the addition of small amounts of strong acid or base is known as buffer action

I'm certain the answer is D: All of the above, but please correct me if I'm wrong ^^

Answer:

The energy released in the experiment is (500g)(4 degrees C)(4.2 J/g-degree C) = 8,400 J.

Explanation:

Answer:

Explanation:

If a zero is found between significant digits, it is significant

Answer:

The property P measured, was a chemical property of X; its acidity

The property D measured, was a physical property of X; its density

The property V measured, was a physical property of X; it's viscosity probably.

Explanation:

1. The property V that was measured is the acidity of X. The acidity of X is a measure of the concentration of hydrogen ions present in it. When drops of another solution, containing dissolved sodium hydroxide, are slowly added, and a pH indicator is used to determine when the sodium hydroxide has completely reacted with X, the procedure determines the concentration of X that would neutralize the base, sodium hydroxide.

2. The property of X determined in the step is the density of X, a physical property. First the volume of X was determined by the displacement method. Then the density of X is calculated from its mass and volume.

3. Since during the determination of the property V, there was no alteration done to the chemical constitution of X, the property thus determined is a physical property. Melting of the sample is a physical change and likewise its flow rate through a very thin tube.

Answer:

Sulphur + oxygen gives ➙ Sulphur oxide

Explanation:

Sulfur oxide is a compound that consists of sulfur and oxygen molecules. I hope this helps!

Answer:

CaO and Fe2O3 or FeO

Explanation:

It is just that.

Answer:

Took the L for y'all  got yo back

Explanation:

The method that transfers heat from the Sun to the ocean is radiation, the method that spreads heat in the ocean is convection and the method that transfers heat from the ocean to the fish is conduction.

Energy would be released by radiation, whether it manifests as waves and particles.

Heat gets transferred through convection, which might be the large-scale movement of molecules inside gases as well as liquids.

Therefore, the method that transfers heat from the Sun to the ocean is radiation, the method that spreads heat in the ocean is convection and the method that transfers heat from the ocean to the fish is conduction.

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The net ionic equation for the reaction between potassium sulfide and magnesium iodide is S2- + Mg2+ -> MgS, as the potassium and iodide ions are spectator ions and do not participate in the reaction.

To determine the net ionic equation for the reaction between potassium sulfide (K2S) and magnesium iodide (MgI2), we first need to identify the ions present in each compound and then determine the products formed when they react.

Potassium sulfide (K2S) dissociates into two potassium ions (K+) and one sulfide ion (S2-):

K2S -> 2K+ + S2-

Magnesium iodide (MgI2) dissociates into one magnesium ion (Mg2+) and two iodide ions (I-):

MgI2 -> Mg2+ + 2I-

Now, we need to determine the possible products when these ions combine. Since potassium (K+) has a +1 charge and iodide (I-) has a -1 charge, they can combine to form potassium iodide (KI):

K+ + I- -> KI

Similarly, magnesium (Mg2+) and sulfide (S2-) can combine to form magnesium sulfide (MgS):

Mg2+ + S2- -> MgS

Now, we can write the complete ionic equation by representing all the ions present before and after the reaction:

2K+ + S2- + Mg2+ + 2I- -> 2KI + MgS

To obtain the net ionic equation, we remove the spectator ions, which are the ions that appear on both sides of the equation and do not participate in the actual reaction. In this case, the spectator ions are the potassium ions (K+) and the iodide ions (I-).

Thus, the net ionic equation for the reaction between potassium sulfide and magnesium iodide is:

S2- + Mg2+ -> MgS

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Answer:

The correct answer is 1.5 balloons.

Explanation:

Based on the given question, the radius of the spherical balloons is 170 cm. Therefore, the volume of each balloon will be,  

= 4/3 × π × (170)³ cm³

= 20.5176 × 10⁶ cm³  

= 20.5176 m³

The density of air at 100 degree C s 0.946 Kg m⁻³

The mass of air in each balloon can be calculated by using the formula,  

Mass = density × volume

Mass = 0.946 Kg m⁻³ × 20.5176 m³

Mass = 19.410 Kg

The heat energy, that is, required to bring the air from 25 degree C to 100 degree C will be,  

= 19.410 × 10³ g × (100 -25) degree C × 1.009 J/g degree C

= 14.68 × 10⁵ J

The concentration of butane given is 1.00 Kg or 1000 g

The molecular weight of butane is 58.12 g per mole

The moles or n can be calculated by using the formula,  

n = mass / mol.wt

n = 1000 g/58.12 g/mol = 17.20 mol

The formation of enthalpy of butane at 25 degree C is 125.7 × 10³ J/mol. The evolution of heat energy that take place at the time of burning 17.20 moles of butane is,  

= 125.7 × 10³ J/mol × 17.20 mol

= 2.16 × 10⁶ J

The number of balloons that can be inflated with hot air is,  

= 2.16 × 10⁶ J / 14.68 × 10⁵ J per each balloon

= 1.5 balloons

Hence, maximum of 1.5 balloons can be inflated.  

The mass of 4.35 moles of potassium chloride is 324.14 grams. Potassium chloride (KCl) is a chemical compound made up of potassium and chlorine.

Potassium chloride (KCl) is a chemical compound composed of potassium and chlorine. It is commonly used as a salt substitute for people on low-sodium diets, as well as a fertilizer, a source of potassium in food additives, and a component of some medical solutions. Potassium chloride can also be used in the production of various chemicals, including explosives and pharmaceuticals.

The molar mass of potassium chloride (KCl) is 74.55 g/mol (39.10 g/mol for K and 35.45 g/mol for Cl).

To calculate the mass of 4.35 moles of KCl, we can use the following formula:

mass = moles × molar mass

So, the mass of 4.35 moles of KCl is:

mass = 4.35 moles × 74.55 g/mol

mass = 324.14 g

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The nonessential saturated fatty acid with four double bonds is called Palmitoleic Acid, and its structural formula is CH₃(CH₂)₅CH=CH(CH₂)₇COOH. Its IUPAC name is (Z)-hexadec-9-enoic acid.

Nonessential saturated fatty acids are fatty acids that can be synthesized by the human body and are not required to be obtained from the diet. The human body has the ability to produce these fatty acids through de novo synthesis.

The structure of a nonessential saturated fatty acid with four double bonds is as follows:

Name: Palmitoleic Acid

Structural Formula: CH₃(CH₂)₅CH=CH(CH₂)₇COOH

IUPAC Name: (Z)-hexadec-9-enoic acid

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The graph which represents the relationship between pressure and volume for a sample of an ideal gas at constant temperature is referred to as option A.

This is referred to as a theoretical gas composed of many randomly moving point particles that are not subject to interparticle interactions.

The relationship between pressure and volume is a direct one such that as pressure increases the volume also increases and vice versa which is depicted in the graph shown in option a thereby making it the correct choice.

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Answer:

Reactant

Explanation:

hope this helps you

Answer:

1)seismic 2) S-waves 3) outer core

Answer:the other comment is right

Explanation:

Volume of CO₂ obtained : 13 L

Reaction

C₂H₅OH + 3 O₂ ⇒ 2 CO₂ + 3 H₂0 + 8842 Joules

moles of ethanol=0.28

From equation, mol ratio ethanol : CO₂ = 1 : 2, so mol CO₂ :

\(\tt \dfrac{2}{1}\times 0.28=0.56\)

Conditions at T 0 ° C and P 1 atm are stated by STP (Standard Temperature and Pressure). At STP, Vm is 22.4 liters / mol.

Then volume of CO₂ :

\(\tt V~CO_2=mol\times 22.4=0.56\times 22.4=12.544\approx 13~L\)

Answer:

okii is it on your page

Explanation:

Answer:

hello

Explanation:

The effect of the given factors on membrane fluidity are:

The factors that  affect membrane fluidity include;

Longer carbon tails: Phospholipids with longer carbon tails have more van der Waals interactions between their fatty acid chains, which makes the membrane more tightly packed and less fluid.

Presence of double bonds: Phospholipids with double bonds create kinks in their carbon tails, which makes it harder for them to pack tightly together. This increases the space between the phospholipid molecules, making the membrane more fluid.

Addition of cholesterol: At high temperatures, cholesterol reduces membrane fluidity by increasing the packing of the lipid molecules in the membrane. On the other hand, at low temperatures, cholesterol increases membrane fluidity by preventing the lipids from packing too closely together.

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There are approximately 1.62 x 10^25 water molecules in the 499.8 mL bottle of water.

To determine the number of water molecules in the given volume of water, we need to use the relationship between mass, volume, and molar mass of water.

First, we need to find the mass of water in the bottle:

Mass = Density * Volume

Mass = 0.967 g/mL * 499.8 mL = 483.9 g

Next, we need to convert the mass of water to moles using the molar mass of water. The molar mass of water (H2O) is approximately 18.015 g/mol.

Moles = Mass / Molar mass

Moles = 483.9 g / 18.015 g/mol = 26.88 mol

Finally, we can calculate the number of water molecules using Avogadro's number, which is approximately 6.022 x 10^23 molecules/mol.

Number of molecules = Moles * Avogadro's number

Number of molecules = 26.88 mol * (6.022 x 10^23 molecules/mol) = 1.62 x 10^25 molecules

Therefore, there are approximately 1.62 x 10^25 water molecules in the 499.8 mL bottle of water.

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