10.6 grams of Na2CO3 is dissolved in water to make 1.25 liters
of solution. What is the molarity of the solution? (Molar mass of
Na2CO3 = 106 g/mol) __M.

Answer:

To react with 0.5 moles of Zn 1 mole of HCl is required

Explanation:

Given data:

Number of moles of Zn = 0.50 mol

Number of moles of HCl = ?

Chemical equation:

Zn + 2HCl  → H₂ + ZnCl₂

Now we will compare the moles of Zn and HCl through balance chemical equation.

                       Zn         :        HCl

                         1          :            2

                       0.50      :         2×0.5 = 1 mol

In order to react with 0.5 moles of zinc 1 mole of HCl is required.

Final answer:

To react with 0.50 moles of Zn, following a 1:2 molar ratio based on the provided equation, 1.0 mole of HCl is required.

Explanation:

The question you've asked is about how many moles of hydrochloric acid (HCl) are needed to react with 0.50 moles of zinc (Zn), based on the chemical equation: Zn + 2HCl → H2 + ZnCl2. From this equation, it's clear that zinc reacts with hydrochloric acid in a 1:2 molar ratio, meaning that for each mole of zinc, two moles of HCl are required for the reaction to proceed to completion.

Therefore, to react with 0.50 moles of Zn, you need 2 * 0.50 = 1.0 mole of HCl.

Hey there!

H₂O₂ → H₂ + O₂

This equation is already balanced.

We count 2 hydrogen atoms on the left, and 2 hydrogen atoms on the right.

We count 2 oxygen atoms on the left, and 2 oxygen atoms on the right.

This means the equation is balanced.

Hope this helps!

Answer:

Chemical Equation Balancer Sn + NaOH = Na2SnO2 + H2.

Explanation:

Answer:

Chemical Equation Balancer Sn + NaOH = Na2SnO2 + H2.

Explanation:

got it right on a test/assignment i had :)

Answer:

% yield = 62.21 %

Explanation:

∴ mass C2H4(g) = 4.6 g

∴ mass C2H6O(l) = 4.7 g

theretical yield:

∴ molar mass C2H4(g) = 28.05 g/mol

⇒ mol C2H4(g) = (4.6 g)*(mol/28.05 g) = 0.164 mol

⇒ mol C2H6O(l) = (0.164 mol C2H4)*(mol C2H6O(l)/molC2H4(g))

⇒ mol C2H6O(l) = 0.164 mol

∴ molar mass C2H6O(l) = 46.07 g/mol

⇒ mass C2H6O(l) = (0.164 mol)*(46.07 g/mol) = 7.55 g

⇒ theoretical yield = 7.55 g

⇒ % yield = (4.7 g)/(7.55 g))*100

⇒ % yield = 62.21 %

The percent yield of the reaction is 62.7%.

The percent yield of a chemical reaction is the ratio of the actual yield to the theoretical yield, multiplied by 100. To calculate the percent yield, you need to determine the theoretical yield and the actual yield. The theoretical yield is the maximum amount of product that can be obtained based on stoichiometry, while the actual yield is the amount of product obtained in the reaction. In this case, you are given that 4.6 g of ethylene produces 4.7 g of ethyl alcohol. To find the percent yield, divide the actual yield by the theoretical yield and multiply by 100.

First, determine the moles of ethylene and ethyl alcohol. The molar mass of ethylene (C2H4) is 28 g/mol, and the molar mass of ethyl alcohol (C2H6O) is 46 g/mol.

Moles of ethylene = mass / molar mass = 4.6 g / 28 g/mol = 0.164 mol

Moles of ethyl alcohol = mass / molar mass = 4.7 g / 46 g/mol = 0.102 mol

The molar ratio between ethylene and ethyl alcohol is 1:1, meaning that 1 mol of ethylene produces 1 mol of ethyl alcohol.

Since the moles of ethylene and ethyl alcohol are equal, the theoretical yield of ethyl alcohol is 0.164 mol. Convert this to grams using the molar mass: theoretical yield = 0.164 mol * 46 g/mol = 7.5 g.

Finally, calculate the percent yield:

Percent yield = (actual yield / theoretical yield) * 100

Percent yield = (4.7 g / 7.5 g) * 100 = 62.7%

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Explanation:

The bigger the mass and the higher the height of the object above earth’s surface, the bigger the potential energy. The potential energy can be evaluated using the formula below;

P.E. = m*g*h, where

m = mass in kilograms,

g = the acceleration due to gravity (9.8 m / s² at the surface of the earth), and

h = height in meters.

From the formula, it is clear that increasing mass, gravity or/and height will give an increased potential energy

Answer:

38.75KPa

Explanation:

The following were obtained from the question:

V1 = 155cm^3

P1 = 22.5kPa

V2 = 90cm^3

P2 =?

The new pressure can obtain by doing the following:

P1V1 = P2V2

22.5 x 155 = P2 x 90

Divide both side by 90

P2 = (22.5 x 155) /90

P2 = 38.75KPa

Answer:

2Na(s) + 2H2O(l) ---> 2NaOH(aq) + H2(g)

Explanation:

In the reaction above, solid pieces of sodium metal, Na, is dissolved in liquid water to form a solution of its alkali

(sodium hydroxide, NaOH) and gives off hydrogen gas, H.

The reaction occurs vigorously giving off hydrogen gas due to the highly reactive nature of alkali metals like sodium with water.

Answer:

0.04167mole

Explanation:

To convert gram to mole,

C6H12O6

C - 12

H - 1

O - 6

There are 6 moles of C, 12 mole of H and 6 mole of O

Therefore, multiply each number of mole by the mass of each element

C - 12 * 6 = 72

H - 1 * 12 = 12

O - 16 * 6 = 96

The molar mass of C6H12O6 = 72 + 12 + 96

= 180g/mol

Dividing the number of mass by the mm

= 7.50g / 180g/mol

= 0.04167 mole

Answer:

Boron is a Metalloid Element

Explanation:

Final answer:

Boron is classified as a metalloid due to its electron configuration and covalent bonding nature, differing from other group 13 elements by not forming a stable B³+ ion and showcasing a range of compounds with multicenter bonding and fractional oxidation states.

Explanation:

Classification of Boron:

Boron is a unique element classified as a metalloid. It shares properties with both metals and nonmetals, which is evident in its covalent bonding patterns and its ability to form compounds such as boranes and organoboranes. Unlike its group 13 counterparts, boron does not form a stable B³+ ion due to high ionization energies. Instead, its chemistry is dominated by covalent bonding. Boron's 2s²2p¹ outer electron configuration results in an electron deficiency, allowing it to form unusual oxidation states, including fractional ones in boron hydrides. Boron is more electropositive than carbon and hydrogen, contributing to its ability to form covalent bonds with a variety of elements, resulting in a vast range of boron compounds.

Though often compared to silicon and carbon due to its covalency and potential for cluster formation, boron distinctively diverges in properties, such as preferring multicenter bonding. Its peculiar chemistry is also highlighted by its capability to adhere to the sextet rule rather than the octet rule, an example being its stable formation with hydrogen (BH).

Answer:

1. 0.073L

2. 0.028L

3. 0.014L

Explanation:

The volume for the different solutions are obtained as shown below:

1. Mole = 0.53mol

Molarity = 7.25M

Volume =?

Molarity = mole /Volume

Volume = mole /Molarity

Volume = 0.53/7.25

Volume = 0.073L

2. 0.035mol from a 1.25M

Mole = 0. 035mol

Molarity = 1.25M

Volume =?

Molarity = mole /Volume

Volume = mole /Molarity

Volume = 0.035/1.25

Volume = 0.028L

3. Mole = 0.0013mol

Molarity = 0.090M

Volume =?

Molarity = mole /Volume

Volume = mole /Molarity

Volume = 0.0013/0.090

Volume = 0.014L

Answer:2) NaCl

Explanation:

The least soluble substance at 50°C would be the one with the lowest point on a typical solubility graph at this temperature. However, a specific answer cannot be provided without the graph.

Without the graph, it's not possible to provide a definitive answer. In general, solubility depends on the specific substance and temperature. However, assuming a typical solubility graph, you would find the least soluble substance at 50°C by looking for the compound which has the lowest point on the graph at this temperature. This is because solubility graphs usually show the amount of a substance that can be dissolved in 100 grams of water at various temperatures.

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Answer: Check explanation

Explanation:

Then bike can't get hit.  They can turn the wheel. They can hit the brake

Answer:

The volume of the piece of the metal Gina is found to be 21 [tex]cm^{3}[/tex]

Explanation:

Given density of the metal = 10 g/[tex]cm^{3}[/tex]

Given mass of the piece of the metal = 210 g

Assuming volume of piece of metal to be V [tex]cm^{3}[/tex]

The expression for the density is shown below

[tex]\textrm{Density} = \displaystyle \frac{\textrm{Mass of piece of metal}}{\textrm{Volume of piece of metal}}\\10 \textrm{ g/cm}^{3} = \displaystyle \frac{210 \textrm{ g}}{V} \\V = 21 \textrm{cm}^{3}[/tex]

Volume of the piece of metal = 21 [tex]cm^{3}[/tex]

In a crystal, the particles are arranged in an orderly, repeating, three-dimensional pattern.

Option C

Explanation:

Solid crystal particles can be ions, molecules or atoms, based on the material kind. The three-dimensional solid crystal system is called the crystal lattice. The crystals are divided into general categories according to their shape.

The crystal is characterized by faces that intersect at specific angles characteristic of this material. Crystal is a material in which particles get arranged in an ordered, repeatable, three-dimensional way. Means, a solid contains an atomic patterns that is uniformly repeated in three dimensions.

Answer: D.) melting ice

Explanation:

An exothermic reaction is a chemical reaction that releases energy through light or heat

hope this helps :D

Answer: Heat change will be negative and reaction is exothermic.

Explanation:

In any system that involves heat flowing out of the system, (that is heat loss), the heat change will be negative and the reaction will be exothermic.

Answer:

The answer is 20 % V/V

Explanation:

We use this formula for calculate the %V/V:

%V/V= (ml solute/ml solution) x 100= (75ml/375 ml)x 100 = 20 % V/V

The% V / V represents the amount of ml of solute dissolved in 100 ml of solution

Answer:

Mg = 3

P = 2

O = 8

Explanation:

Mg3(PO4)2

Multiplying through by the number outside the bracket, we obtained

Mg3P2O8. From this, we can easily find the number of atoms of each element present as illustrated below:

Mg = 3

P = 2

O = 8

Answer:

k = 4,92x10⁻³

Explanation:

For the reaction:

AB₂C (g) ⇄ B₂(g) + AC(g)

The equilibrium constant, k is defined as:

[tex]k = \frac{[B_{2}][AC]}{[AB_2C]}[/tex] (1)

Molar concentration of the species are:

[AB₂C]: 0,0840mol / 5L = 0,0168M

[B₂]: 0,0350mol / 5L = 0,0070M

[AC]: 0,0590mol / 5L = 0,0118M

Replacing this values in (1):

[tex]k = \frac{[0,0070][0,0118]}{[0,0168]}[/tex]

k = 4,92x10⁻³

I hope it helps!

Answer:

The tides wouldn't go sicko mode

Explanation:

The tides would be weaker, hence no sicko mode

Answer:

The mole of glucose is 0.106mol

Explanation:

Glucose - C6H12O6

We will calculate the molar mass of glucose

C - 12

H - 1

O - 16

6 moles of carbon, 12 moles of hydrogen and 6 moles of oxygen

Mm = 6 * 12 + 12 * 1 + 16 * 6

= 72 + 12 + 96

= 180g/mol

Using the formula

n = m/Mm

n - number of mole

m - number of mass

Mm - number of molar mass

n = 19.1g/180g/mol

= 0.106g/mol

Answer:

more than 300 N

Explanation:

you have to have more than 300 N of force to move an object that already requires 300 so 301 N would push it but very slowly

Suspension mixture was their dinner if they were having spaghetti and meatballs.  The right option is D.

Explanation:

Properties of suspension mixture are:

Bigger particles are seen in suspension, and they are visible by naked eye.

Suspension is a heterogenous mixture of either two or more substances.

Solute particles are not dissolved in solvent instead they are suspended as it is or in bulk.

Exhibits Tyndall effect.

Solid particles get sedimented easily.

A mixture of spaghetti and meatballs  are suspension because two paricles are not dissoved, and they have separate phases on sphagetti and meat ball where liquid in meat ball drizzles to bottom and meatball remians on top.

Answer: fertile offspring

explaination: I turned in my schoolwork and got it ri ght

Answer:

How the relative density of a substance is related to the density calculate the density of iron if its relative density is 2 and a density of water is 2gcm -3

R.d= relative density of substance/ relative density of water

R.d= 2/2

R.d= 1gcm-3

Explanation:

Density of water=1000 kg/m^3. Relative density= density of substance/density of water. Relative density=7800/1000=7.8 · The radius of a solid sphere is 2 cm.

The relative density can be calculated directly by measuring the density of the sample and dividing by the (known) density of the reference substance. The density of a sample divided by its volume is the relative density of the sample, also known as specific gravity. The relative density of a substance is a pure number that has no units. It tells how many times a substance weighs more than water. The relative density (R.D) of a substance is calculated by dividing the density of a substance by the density of water. The relative density of a substance is the ratio of the density of the substance to that of water. And since it is the ratio of density to density. Hence, it is singular

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Answer:

moles, liter, concentration, and 6.0 mol/L

Explanation:

Answer:

First Question:

Moles, liter, concentration, 6.0 mol/L

Second Question:

C. [HCl]

Third Question:

C. molarity.

Fourth Question:

A. M = mol solute/liter solution

Explanation:

Got it right

Answer:

Chemical weathering.

Explanation:

Chemical weathering has more to do with weathering things with acid, water, and air. Mechanical weathering happens without water most of the time. Yes they both have water weathering but Chemical weathering has a higher rate of impact.

Precipitation greatly impacts both mechanical and chemical weathering, but due to its role in driving chemical reactions, it is generally more impactful on the rate of chemical weathering. Other factors, including climate, temperature, and biological activity, also influence precipitation's effects on weathering.

Precipitation can have a great impact on both mechanical and chemical weathering, but the extent of its impact depends on other factors such as temperature and wind. For example, in the context of climate, temperature, moisture, and wind shape different patterns of weathering. Mechanical weathering can be accelerated by moisture as it causes expansion and contraction in rocks, while chemical weathering often occurs when moisture combines with substances in the atmosphere to produce acids that can break down rock over time.

The role of precipitation is also evidenced in chemistry. The process of selective precipitation is used to remove contaminants from wastewater before it's released back into natural water bodies. Further, precipitation reactions in nature can lead to the formation of solid products through a process called metathesis reactions. So, while precipitation indirectly contributes to mechanical weathering, its role in driving chemical reactions that can lead to chemical weathering is more direct and thus it generally has a greater impact on the rate of chemical weathering.

The impact of precipitation can also be seen in biology. Changing conditions such as temperature and precipitation affect the geographic distribution and phenology of plants and animals. For example, moisture levels affect the biological activity in soil, promoting the development of microorganisms and the decomposition of plant materials, which can contribute to soil weathering.

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Answer:

Solid -> Gas

Explanation:

Sublimation is when a solid directly transitions to a gas, skipping the liquid form.

Explanation:

sublimation is a changing of a solid directly into vapour on heating and of vapour into solid on cooling .

hope it helps

A 1.0-gram sample of powdered Zn reacts faster with HCl than a single 1.0-gram piece of Zn because the surface atoms in powdered Zn have more contact with the H⁺ ions in the acid.

Hence, Option (C) is correct answer.

Zinc is a chemical element. The atomic number of Zinc is 30. Zinc belongs to period 4 and group 12 in the periodic table. Zinc is a transition metal.

HCl is Hydrochloric acid. It is a nonflammable gas. Hydrochloric acid is also called muriatic acid. It is a strong corrosive acid. HCl is also known as hydrogen chloride.

Thus from the above conclusion we can say that A 1.0-gram sample of powdered Zn reacts faster with HCl than a single 1.0-gram piece of Zn because the surface atoms in powdered Zn have more contact with the H⁺ ions in the acid.

Hence, Option (C) is correct answer.

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Final answer:

Powdered Zn reacts faster with HCl compared to a single piece because it has more contact with the H+ ions, allowing for more collisions and faster reaction rates due to increased surface area.

Explanation:

A 1.0-gram sample of powdered Zn reacts faster with HCl than a single 1.0-gram piece of Zn because the surface atoms in powdered Zn have more contact with the H+ ions in the acid. This increased contact area allows for more collisions and interactions between the Zn atoms and HCl, which results in a faster reaction rate. In a powdered form, zinc has a greater surface area exposed to the acid, leading to an increase in reaction rate compared to a single piece of zinc, which has a limited surface area exposed.

When zinc reacts with hydrochloric acid, a single displacement reaction occurs, producing hydrogen gas and an aqueous solution of zinc chloride. The balanced equation for the reaction is Zn(s) + 2 HCl(aq) → H2(g) + ZnCl2(aq). In this reaction, zinc transfers electrons to hydrogen atoms (protons), resulting in the formation of hydrogen gas. Increased surface area from the powdered form increases the number of these electron transfer events, thus increasing the reaction's rate.