2Al + 6HCl ? 2AlCl3 + 3H2 If the chemical reaction produces 129 grams of AlCl3, how many grams of H2 are also produced?

There are made out of the same material or elements

Answer:

D. Temperature

Explanation:

Temperature is not energy, let's just make that point first. So how can it be the average kinetic energy then?

Well, the short answer is, it is just a number. Temperature is a number that represents the average kinetic energy. It is important to note that temperature only relates to kinetic energy in substances.

This is what makes it different from heat. Heat considers all forms of energy in the substance.

Answer:

TEMPERATUE

Explanation:

Answer:

a) 5

b) 4

c) 3

d) 3

e) 4

Explanation:

I use only one rule when the decimal is present, meaning you can see the decimal (as is the case with all of these).

When the decimal is Present, start counting sig figs from the Pacific (left) side of the number beginning with the first non-zero digit and count all the way to the end.

So, for example, in "a", the first non-zero digit starting from the left is 1, then continue counting all the way to the right side.

For "c",  the first non-zero digit is the left most 4 (skip the first 4 zeros), then count all the way to the right side.

Answer:

[tex]\boxed{\text{0.60 L}}[/tex]

Explanation:

We can use Gay-Lussac's Law of Combining Volumes to solve this problem.

Gases at the same temperature and pressure react in the same ratios as their coefficients in the balanced equation.

1. Write the chemical equation.

Ratio: 2 L     1 L

           2H₂ + O₂ → 2H₂O

V/L:   1.2

2. Calculate the volume of O₂.

According to Gay-Lussac, 1 L of O₂ forms from 2 L of H₂.

Then, the conversion factor is (1 L O₂/2 L H₂).

[tex]\text{Volume of O}_{2} = \text{1.20 L H}_{2}\times \dfrac{\text{1 L O}_{2}}{\text{2 L H}_{2}} = \textbf{0.60 L O}_{2}\\\\\text{You need }\boxed{\textbf{0.60 L of O}_{2}}[/tex]

When the sun becomes active, the occurrences of phenomena such as solar flares, coronal mass ejection become frequent. The amount of high-energy particles and extreme shortwave radiation released, such as X-rays and UV, will also increase. These phenomena affect the ionosphere of the Earth's atmosphere the most.

Answer:

(Percent yield × theoretical yield) ÷ 100.

Explanation:

∵ percent yield of the reaction = [(actual yield)/(theoretical yield)] x 100.

∴ actual yield = [(percent yield of the reaction) x (theoretical yield)]/100.

So the right choice is: (Percent yield × theoretical yield) ÷ 100 .

Answer : The correct option is, [tex]\frac{(\text{Percent yield}\times \text{Theoretical yield})}{100}[/tex]

Explanation :

The formula used for the percent yield will be :

[tex]\text{Percent yield}=\frac{\text{Actual yield}}{\text{Theoretical yield}}\times 100[/tex]

or,

[tex]\text{Actual yield}=\frac{(\text{Percent yield}\times \text{Theoretical yield})}{100}[/tex]

For example : If we are given that the percentage yield of a sample is 94.92% and the theoretical yield is 83.475 g. Now calculate the actual yield of the sample.

By using formula we get the value of actual yield.

[tex]\text{Actual yield}=\frac{(94.92\times 83.475)}{100}=79.23g[/tex]

Thus, the actual yield is, 79.23 g.

Hence, the formula used to calculate the actual yield can be, [tex]\frac{(\text{Percent yield}\times \text{Theoretical yield})}{100}[/tex]

Answer:

A. Yes, Amanda find the number of moles of NaCl correctly.

B. 0.73 M.

Explanation:

A. Did Amanda find the number of moles of NaCl correctly? If not, explain.

No. of moles (n) of NaCl = mass/molar mass.

mass of NaCl = 32.0 g, molar mass of NaCl = 58.45 g/mol.

∴ No. of moles (n) of NaCl = mass/molar mass = (32.0 g)/(58.45 g/mol) = (32.0 g NaCl)*(1 mol of NaCl)/(58.45 g NaCl) = 0.547 mol ≅ 0.55 mol.

B. What does Amanda need to do next to calculate the molarity of the NaCl solution? Show your work for full credit.

∴ M = (no. of moles of NaCl)/(volume of solution (L)) = (0.55 mol)/(0.75 L) = 0.73 M.

A on nudity

Reason: ye

The molarity of a solution is typically directly related to its absorption. This relationship is expressed through the Beer-Lambert law, and can be written as A=ecl. This is usually used in spectroscopy and research.

Hope this helps!

To calculate the amount of heat energy added to the water, multiply the mass of water by the specific heat of water and the change in temperature.

To calculate the amount of heat energy added to the water, we can use the equation:

q = m * c * ΔT

Where q is the heat energy, m is the mass of the water (2 grams), c is the specific heat of water (4.184 J/g °C), and ΔT is the change in temperature (final temperature minus initial temperature).

Substituting the values into the equation, we get:

q = 2g * 4.184 J/g°C * (50°C - 40°C)

q = 2g * 4.184 J/g°C * 10°C

q = 83.68 J

Therefore, 83.68 Joules of heat energy is added to 2 grams of water.

Answer:

heat is relaesed

a decrease in temperature

less than the chemical energy

written as a reactant

Explanation:

Answer:

Answer is Below

Explanation:

For an exothermic reaction, heat is released. Which means that...

1. Heat is written as a product of the reaction.

2. A rise in temperature occurs.

3. Heat is released into the surroundings.

and 4. The chemical energy stored in the bonds of the products is less than that stored in the reactants.

This diagram also explains why this is the case, the chemical energy is lower as you see the products is lower on the graph as compared to the reactants.

Answer:

Explanation:

The boiling point of a pure solven increases when a solute is added and a solution is formed.

The increase of the boiling point of a solvent, when a non-volatile solute is added, is a colligative property, meaning that it depends of the number particles of solute dissolved.

The equation that rules the increase of the boiling point is:

Where:

Then, since Kb is constant (because it is the same solvent for all the solutions), you must look at the product m × i.

For ionic solutes you assume 100% ionization, which drives to:

Solution                  Ionization           i        m         m × i

A) 2.0 BaCl₂             Ba⁺² + 2Cl⁻       3      2.0        6.0     ↔ highest

B) 2.0 NaNO₃          Na⁺ + NO₃⁻       2      2.0        4.0      ↔ second

C) 1.0 C₆H₁₂O₆          none                1       1.0         1.0      ↔ lowest (fourth)

D) 1.0 K₂SO₃             2K⁺ + SO₃²⁻      3      1.0         3.0     ↔ third

Then, 6.0 > 4.0 > 3.0 > 1.0 and the final list of the solutions arranged in order from highest boiling point to lowest boiling point is:

Answer:

The order should be ABDC.

Explanation:

Answer:

Explanation:

The angular momentum quantum number, identified with the letter l (lowercase L),  number is the second quantum number.

This number identifies the shape of the orbital or kind of subshell.

The possible values of the angular momentum quantum number, l, are constrained by the value of the principal quantum number n: l can take values from 0 to n - 1.

So, you can use this guide:

Principal quantum   Angular momentum         Shape of the orbital

number, n                 quantum number, l

         1                                      0                             s

         2                                     0, 1                          s, p

         3                                     0, 1, 2                      s, p, d

Hence,

Answer:

[tex]\boxed{\text{36 mL}}[/tex]

Explanation:

1. Write the balanced chemical equation.

[tex]\rm HCOOH + NaOH $ \longrightarrow$ HCOONa + H$_{2}$O[/tex]

2. Calculate the moles of HCOOH

[tex]\text{Moles of HCOOH} =\text{20.00 mL HCOOH } \times \dfrac{\text{0.20 mmol HCOOHl}}{\text{1 mL HCOOH}} = \text{4.00 mmol HCOOH}[/tex]

3. Calculate the moles of NaOH.

[tex]\text{Moles of NaOH = 4.00 mmol HCOOH } \times \dfrac{\text{1 mmol NaOH} }{\text{1 mmol HCOOH}} = \text{4.00 mmol NaOH}[/tex]

4. Calculate the volume of NaOH

[tex]c = \text{4.00 mmol NaOH } \times \dfrac{\text{1 mL NaOH }}{\text{0.1105 mmol NaOH }} = \textbf{36 mL NaOH }\\\\\text{The titration will require }\boxed{\textbf{36 mL of NaOH}}[/tex]

The volume of NaOH required to reach the end point is 36.2 mL

We'll begin by writing the balanced equation for the reaction.

HCOOH + NaOH —> HCOONa + H₂O

From the balanced equation above,

The mole ratio of the acid, HCOOH (nA) = 1

The mole ratio of the base, NaOH (nB) = 1

From the question given above,

Molarity of base, NaOH (Mb) = 0.1105 M

Volume of acid, HCOOH (Va) = 20 mL

Molarity of acid, HCOOH (Ma) = 0.2 M

MaVa / MbVb = nA/nB

(0.2 × 20) / (0.1105 × Vb) = 1

4 / (0.1105 × Vb) = 1

Cross multiply

0.1105 × Vb = 4

Divide both side by 0.1105

Vb = 4 / 0.1105

Thus, the volume of the base, NaOH is 36.2 mL

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Answer:

233 g.

Explanation:

The solubility of silver nitrate at 20.0°C is 222 g per 100 g of water.

The solubility of silver nitrate at 50.0°C is 455 g per 100 g of water.

∴ We need to add (455 g - 222 g = 233 g) of AgNO₃ to obtain a saturated solution at 50.0°C.

Answer: metal and carbonate

Explanation:

According to Arrhenius concept, a base is defined as a substance which donates hydroxide ions [tex](OH^-)[/tex] when dissolved in water and an acid is defined as a substance which donates hydrogen ions [tex](H^+)[/tex] in water.

An acid is represented as :

[tex]HX\rightarrow H^++X^-[/tex]

1. When metal is treated with an acid such as [tex]HCl[/tex], if the metal is more reactive than hydrogen displaces hydrogen from its salt solution and thus produce zinc chloride and hydrogen gas.

[tex]M+xHCl(aq)\rightarrow MCl_x(aq)+xH_2(g)[/tex]

2. When carbonates are treated with acid, double displacement takes place ad carbon dioxide is released as a gas.

[tex]MCO_3(aq)+xHCl(aq)\rightarrow MCl_x(aq)+xH_2O(l)+CO_2(g)[/tex]

Answer:

for those in a hurry, its C

Explanation:

on edge. Metal and carbonates

Answer:

oxygen is produced at the anode and hydrogen gas is produced at the cathode

Explanation:

The statement true about electrolysis of water are;

Electrolysis is a process in which direct current is use to alter or change the chemical composition of a substance when the current is pass through it.

Therefore, The statement true about electrolysis of water are;

Learn more about electrolysis below.

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Answer:

V = 2600ms⁻¹

Explanation:

Given parameters:

Wavelength(λ) = 13meters

Period (T) = 0.005s

Period(T) is the time it takes for a full cycle of vibration to pass through. It's unit is in seconds (s)

The Velocity of waves is expressed as:

V = fλ

Where f = frequency(s⁻¹)

Frequency of a wave is the number of waves that passes through a point per unit time

f = 1/T

Where T is the period

We can therefore express Velocity of waves as a function of period

V = λ/T

Inputing the parameters, we have:

V = 13m / 0.005s

V = 2600ms⁻¹

Answer:

B)   2,600 m/s

Explanation:

Answer:

0.6 mol/L.s.

Explanation:

3O₂ → 2O₃,

the rate of the reaction = - 1/3d[O₂]/dt = 1/2d[O₃]/dt

where, d[O₂]/dt is the rate of change of O₂ concentation = - 0.9 mol/L.s.

d[O₃]/dt is the rate of change of O₃ concentration.

∴ d[O₃]/dt = - 2/3(d[O₂]/dt) = - 2/3(- 0.9 mol/L.s) = 0.6 mol/L.s.

Answer: I believe the Answer is A

Answer:

a substance whose nuclei do not stay together

Explanation:

Answer:

Explanation:

That's almost the exact definition of an ecosystem.

Hello!

I think an ecosystem because they are a biological community of interacting organisms and their physical environment. And that’s what an ecosystem is and it relates to your question.

I hope I answered in time!

Good luck!

~ Destiny ^_^

Answer:it speeds up the reaction

Explanation:

Answer:

404 J

Explanation:

The amount of heat given off by the magnesium sample is given by:

[tex]Q=mC_s \Delta T[/tex]

where

m = 20.0 g is the mass of the sample

[tex]C_s = 1.01 J/gC[/tex] is the specific heat capacity of the magnesium

[tex]\Delta T=50.0 C-70.0 C=-20.0^{\circ}[/tex] is the change in temperature

Substituting into the equation, we find

[tex]Q=(20.0 g)(1.01 J/gC)(-20.0^{\circ})=-404 J[/tex]

and the negative sign means the heat is given off by the sample.

Using the formula for heat exchange (q = mcΔT), we find that a 20.0 gram sample of magnesium releases 404 Joules of heat when cooling from 70.0°C to 50.0°C

The student's question involves the physics concept of specific heat. Specific heat is the heat required to change the temperature of 1 gram of a substance by 1 degree Celsius, it's an intensive property. To calculate the amount of heat given off you can use this formula: q = mcΔT, where:

For the given problem, the mass (m) of magnesium is 20.0 grams, its specific heat (c) is 1.01 J/g°C and the change in temperature (ΔT) is 70.0°C - 50.0°C = 20.0°C. So,

q = mcΔT

= (20.0 g) * (1.01 J/g°C) * (20.0°C)

= 404 J

Therefore, 404 Joules of heat is released when the 20.0 gram sample of magnesium cools from 70.0°C to 50.0°C.

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Answer:

Here's what I get.

Explanation:

The frequency of a vibration depends on the strength of the bond (the force constant).

The stronger the bond, the more energy is needed for the vibration, so the frequency (f) and the wavenumber increase.

Acetophenone

Resonance interactions with the aromatic ring give the C=O bond in acetophenone a mix of single- and double-bond character, and the bond frequency = 1685 cm⁻¹.

p-Aminoacetophenone

The +R effect of the amino group increases the single-bond character of the C=O bond. The bond lengthens, so it becomes weaker.

The vibrational energy decreases, so wavenumber decreases to 1652 cm⁻¹.

p-Nitroacetophenone

The nitro group puts a partial positive charge on C-1. The -I effect withdraws electrons from the acetyl group.

As electron density moves toward C-1, the double bond character of the C=O group increases.

The bond length decreases, so the bond becomes stronger, and wavenumber  increases to 1693 cm¹.

Answer:

D. Earth's internal heat engine and the water cycle

Explanation:

The rock cycle is driven by the earth's internal heat engine and the water cycle.

The internal heat engine furnishes the earth with the required energy. The energy is used to melt rocks within the earth crust and to initiate convective cells in the mantle. This causes rocks to melt and plates to move. As this occurs, igneous and metamorphic processes takes place.

The water cycle is greatly responsible for the weathering and erosion of rocks. Through these processes of denudation, sediments are formed and deposited within basins on the crust. The action of runing water and glacier plays a very significant role in forming sedimentary rocks.

The interplay between the internal heat Engine and water cycle moves crustal materials to deeper levels of the earth and also deep seated materials to the crust.

The two forces that primarily drive the rock cycle are Earth's internal heat engine and the water cycle. Therefore, option D is correct.

The Earth's internal heat engine, which includes processes like volcanic activity, tectonic plate movements, and mountain building plays a crucial role in the rock cycle.

These processes generate heat and pressure that lead to the formation of new rocks through processes such as solidification, crystallization, and metamorphism.

The water cycle, driven by solar energy, also plays a role as it contributes to weathering and erosion by causing precipitation, runoff, and the movement of water through different stages.

To learn more about the rock cycle, follow the link:

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Answer:

It is the last option.

Explanation:.

The forward and reverse reaction rates are the same.

The concentration of reactants and products are constant.

Answer:

Explanation:

1. Turns litmus paper blue, taste bitter, donate OH- ions, feel slippery, 8-14 on pH scale.

BASE

BASE: A base is a substance that reacts with water to yield excess hydroxide ions.

Some of its characteristics are:

>It has a bitter taste

>Their aqeuos solutions have a soapy feel

>They have a PH greater than 7

>They turn red litmus paper blue

>They are electrolytes

2. The amount of ions per an amount of solvent. Ex: 10g salt/100g water

CONCENTRATION

Concentration is the amount of solute that can be found in a solution.

3. A lab procedure to deliver a measured volume of solution, generally measured in ml.

TITRATION

Titration is a laboratory procedure that is used to determine the amount of solution that is needed to drive a reaction to completion. It involves adding a solution to a known volume of another solution.

4. A substance or solution that resists changes in pH by stabilizing hydrogen ion concentration.

BUFFER

A buffer is solution that is made up of weak acids and their salts or weak bases and their salts. Such solutions are able to resist changes in PH

5. Turns litmus paper red, taste sour, donate H+, corrode metals, 0-6 on pH scale.

ACID

An acid is a proton donor, hydrogen ions.

Characteristics:

>Acids turns blue litmus paper red, they have sour taste and easily corrodes metals.

>They have a PH value between 0-6 on the scale.

>They are generally electrolytes

6. Logarithmic scale to indicate the amount of hydrogen ions in solution.

PH SCALE

A PH scale is a logarithmic scale that runs from 1-14 and is used to indicate the amount of hydrogen ions in a solution.

7. A chemical (dye created from lichens) that changes color in response to changes in pH.

LITMUS PAPER

Litmus paper is made of dyes created from lichen and it changes its color as PH changes. Acids turns blue litmus paper red while bases changes the color of litmus to blue from red. Litmus test is a popular test for solutions.

8. Acids and bases are added proportionally and result in a chemical reaction that causes the pH of a solution to reach pH 7.

NEUTRALIZATION

Neutralization is the reaction of acids and bases to produce salts and water. The endpoint of neutralization reaction signifies the point at which equal number of bases neutralizes an acid. The PH is 7 at this point.

The definitions for the provided words are as follows: 1. Base: Turns litmus paper blue, taste bitter, donate OH- ions, feel slippery, 8-14 on pH scale. 2. Concentration: The amount of ions per an amount of solvent. Ex: 10g salt/100g water. 3. Titration: A lab procedure to deliver a measured volume of solution, generally measured in ml. 4. Buffer: A substance or solution that resists changes in pH by stabilizing hydrogen ion concentration. 5. Acid: Turns litmus paper red, taste sour, donate H+, corrode metals, 0-6 on pH scale. 6. pH: Logarithmic scale to indicate the amount of hydrogen ions in solution. 7. Litmus: A chemical (dye created from lichens) that changes color in response to changes in pH. 8. Neutralization: Acids and bases are added proportionally and result in a chemical reaction that causes the pH of a solution to reach pH 7.

1. Base: Turns litmus paper blue, taste bitter, donate OH- ions, feel slippery, 8-14 on pH scale.

2. Concentration: The amount of ions per an amount of solvent. Ex: 10g salt/100g water.

3. Titration: A lab procedure to deliver a measured volume of solution, generally measured in ml.

4. Buffer: A substance or solution that resists changes in pH by stabilizing hydrogen ion concentration.

5. Acid: Turns litmus paper red, taste sour, donate H+, corrode metals, 0-6 on pH scale.

6. pH: Logarithmic scale to indicate the amount of hydrogen ions in solution.

7. Litmus: A chemical (dye created from lichens) that changes color in response to changes in pH.

8. Neutralization: Acids and bases are added proportionally and result in a chemical reaction that causes the pH of a solution to reach pH 7.

Answer:

The catalyst is unchanged.

Explanation:

Hope my answer has helped you!

Answer:

4.549 kg.

Explanation:

where, P is the pressure of the gas in atm (P = 2 x 10⁴ kPa/101.325 = 197.4 atm).

V is the volume of the gas in L (V = 20.0 L).

n is the no. of moles of the gas in mol (n = ??? mol).

R is the general gas constant (R = 0.0821 L.atm/mol.K),

T is the temperature of the gas in K (T = 23° C + 273 = 296 K).

∴ n = PV/RT = (197.4 atm)(20.0 L)/(0.0821 L.atm/mol.K)(296 K) = 162.5 mol.

mass of N₂ = (no. of moles of N₂)*(molar mass of N₂) = (162.5 mol)*(28.0 g/mol) = 4549 g = 4.549 kg.

The answer is excess reactant

Answer: option B, excess reactant

Explanation:

Since one the reactants is in excess(high amount) compared to other.

Example reaction of H2& Cl2 gives HCl.

If we take excess H2 compared to Cl2. Then we call H2 as excess Reactant.