when excess mg(oh)2 is added to pure water, what is the equilibrium ph? ksp for mg(oh)2 is 7.1 x 10-12 ?

The arrows in the drawing most likely represent convection currents.

Hence, option (b) is correct choice.

For more questions on convection currents

https://brainly.com/question/29812545

#SPJ11

The element which would have no unpaired electrons in its ground state is beryllium.

The ground state refers to the lowest energy level in which an electron can exist in an atom. An electron in the ground state has no excess energy, therefore it is stable and unlikely to be disrupted by an external force. The energy of the ground state is defined as zero, and all other states have greater energy than it.

The electronic configuration of Be is [tex]1s^2 2s^2[/tex]. In the ground state, both of the 2s electrons in beryllium are paired, so there are no unpaired electrons.

The number of unpaired electrons in the other elements listed is:

Li: one unpaired electron in the 2s orbital

C: two unpaired electrons in the 2p orbitals

O: two unpaired electrons in the 2p orbitals

B: one unpaired electron in the 2p orbital

The element that would have no unpaired electrons in its ground state is Be (beryllium).

To learn more about electronic configuration refer to: https://brainly.com/question/29757010

#SPJ11

Sulfuryl chloride is in excess and 1-chlorobutane is the limiting reagent. This result is consistent with the GC data.

Let's assume we used 5 grams of 1-chlorobutane and 7 grams of sulfuryl chloride. The molar mass of 1-chlorobutane is 118.5 g/mol, and the molar mass of sulfuryl chloride is 134.97 g/mol.

Moles of 1-chlorobutane used = 5 g / 118.5 g/mol = 0.042 moles

Moles of sulfuryl chloride used = 7 g / 134.97 g/mol = 0.052 moles

To determine the limiting reagent, we need to compare the moles of each reactant used to the stoichiometric coefficients in the balanced chemical equation for the reaction. The balanced chemical equation for the reaction between 1-chlorobutane and sulfuryl chloride is,

C₄H₉Cl + SO₂Cl₂ → C₄H₉SO₂Cl + HCl

The stoichiometric ratio between 1-chlorobutane and sulfuryl chloride is 1:1. Therefore, we can see that 0.042 moles of 1-chlorobutane would require 0.042 moles of sulfuryl chloride for complete reaction. However, we used 0.052 moles of sulfuryl chloride, which is greater than the amount required for complete reaction. This means that sulfuryl chloride is in excess and 1-chlorobutane is the limiting reagent.

This result is consistent with the GC data, which showed a lower yield of the product than expected. The fact that 1-chlorobutane was the limiting reagent suggests that not all of it was consumed in the reaction, which could explain the lower yield observed in the GC data.

To know more about limiting reagent, here

brainly.com/question/30723867

#SPJ4

The concentration of Cu2+ in the solution is 3.50×10^-4 - 1.29×10^-10 M, which is approximately equal to 3.50×10^-4 M.

The formation constant, Kf, for the complex ion Cu(en)22+ is given as 1.00×10^20. The concentrations of Cu(NO3)2 and ethylenediamine (en) are given as 3.50×10^-4 M and 1.75×10^-3 M, respectively.

The reaction that forms the complex ion can be represented as,

Cu2+ (aq) + 2en (aq) ⇌ Cu(en)22+ (aq)

Let's assume that x is the concentration of Cu2+ ion that reacts with en to form the complex. At equilibrium, the concentration of Cu(en)22+ can be expressed as (1.75×10^-3 - 2x) M (since 2 moles of en react with 1 mole of Cu2+ to form 1 mole of Cu(en)22+).

The concentration of Cu2+ remaining in solution is (3.50×10^-4 - x) M. Using the formation constant expression for the complex ion:

Kf = [Cu(en)22+]/[Cu2+][en]^2

Substituting the given values and the above concentrations at equilibrium,

1.00×10^20 = (1.75×10^-3 - 2x)/[(3.50×10^-4 - x)(1.75×10^-3)^2]

Simplifying and solving for x,

x = 1.29×10^-10 M

Therefore, the concentration of Cu2+ in the solution is 3.50×10^-4 - 1.29×10^-10 M, which is approximately equal to 3.50×10^-4 M.

To know more about concentration, here

brainly.com/question/10725862

#SPJ4

The passage data regarding the thermal stability and the enzyme activity of the mkr681h is the most consistent with the conclusion regarding the role of Arg681 in the cct is the Arg681 is the engaged in catalytic function of enzyme.

The R681H is denotes that the amino acid 681 that is the arginine, R is the changed to the histidine (H). The Enzyme activity will depends on the principally on the enzyme’s intrinsic catalytic efficiency, and its concentration, and the initial substrate concentration, in the presence of the inhibitors or the allosteric activators, the temperature, and the pH.

This will most strongly suggests that the Arg681 will be involved in the catalytic function of  normal enzyme.

To learn more about enzyme here

https://brainly.com/question/29819864

#SPJ4

The change in color that occurs in the reaction mixture as the reaction progresses is due to the formation of Maillard reaction products.

The Maillard reaction is a chemical reaction that occurs between amino acids and reducing sugars in foods when they are heated, resulting in the formation of brown color and flavor compounds.

The reaction involves a complex series of chemical reactions, including the homolytic cleavage of a carbon-carbon bond, as well as the loss of a double bond and the formation of an alkane structure. The formation of these brown color compounds tells us that the Maillard reaction is occurring and that it is producing the characteristic brown color and flavor associated with Maillard reaction products in foods.

To learn more about reaction mixture refer to:

brainly.com/question/14553963

#SPJ4

In the iron oxide compound, the mass percent for iron is approximately 70.05%, and the mass percent for oxygen is approximately 29.95%.

To determine the mass percent for each element in the iron oxide compound, follow these steps:
Step 1: Identify the mass of iron and oxygen in the compound.
You are given that a 14.5 g sample of iron reacts with oxygen to form 20.7 g of iron oxide compound. So, the mass of iron in the compound is 14.5 g.
Step 2: Calculate the mass of oxygen in the compound.
To find the mass of oxygen in the compound, subtract the mass of iron from the total mass of the compound:
Mass of oxygen = Total mass of compound - Mass of iron
Mass of oxygen = 20.7 g - 14.5 g = 6.2 g
Step 3: Calculate the mass percent for each element.
To find the mass percent of each element, divide the mass of the element by the total mass of the compound and multiply by 100.
Mass percent of iron = (Mass of iron / Total mass of compound) x 100
Mass percent of iron = (14.5 g / 20.7 g) x 100 = 70.05 %
Mass percent of oxygen = (Mass of oxygen / Total mass of compound) x 100
Mass percent of oxygen = (6.2 g / 20.7 g) x 100 = 29.95 %

for more such question on mass percent

https://brainly.com/question/26150306

#SPJ11

Answer:

its 17.0g NH3

Explanation:

find the number of moles of nitrogen.

The correct answer is A) 2 NH3(g) + H2SO4(l) –––> (NH4)2SO4(s). This reaction represents the formation of ammonium sulfate, (NH4)2SO4, from its constituent elements in their standard states.

The standard free energy of formation (∆G°f) refers to the energy change when one mole of a compound is formed from its elements in their standard states. In this case, the reaction given in option A shows the formation of one mole of ammonium sulfate from its constituent elements.

Know more about reactions

https://brainly.com/question/11231920

#SPJ11

Explanation:

The force of friction is proportional  to the normal force =  mg cos (angle)

   as the angle increases ( shorter incline) the normal force becomes less ( so friction is less)

       the steep ramp is shorter and the force of friction is less  so the longer, less inclined plane will waste more work because friction is higher and ramp is longer.

Another way to look at it....as the ramp becomes steeper and steeper it becomes closer to being vertical....when there would be no friction...thus less wasted work on friction

A strong base and a mild acid are dissolved in a basic solution. A salt of a strong acid and a weak base is an acidic solution.

Strong acid and strong base salt solution is known as neural. NaCN, NaNO 2, and KF solutions are basic, while NH 4 NO 3 solution is acidic. NaCl and KBr solutions are neutral. A salt containing an anion of a strong acid and a cation of a weak base results in an acidic solution with a pH lower than 7. This is because the cation functions as weak. When a salt of a strong acid and a weak base reacts with water, the cation undergoes hydrolysis, which produces a flourishing H+ ion. Hence, a salt of a weak base in an aqueous solution with a strong acid is acidic.

Learn more about acidic here-

https://brainly.com/question/14072179

#SPJ1

Answer:

Since iodine is a non-polar ion, it will melt in a non-polar solvent like hexane. While water is a polar solvent, lodine does not react in it.

The volume that 80 g of sodium alkali will occupy depends on the specific type of sodium alkali, as each one has a different molar mass and density. To determine the volume, we would need to know the density of the sodium alkali in question.

The statement "zeolites theoretically can be made magnetic by adding sodium ion to them" is true.

Zeolites are a group of minerals that are highly porous and capable of exchanging ions. This property enables zeolites to absorb and store sodium ions, and when exposed to an external magnetic field, the stored sodium ions create their own magnetism, causing the zeolite to become magnetic.

The process of creating a magnetic zeolite begins with a zeolite powder, which is typically heated to very high temperatures to create a larger surface area for the sodium ions to bind to. Then, a solution of sodium ions is introduced, which is then absorbed into the zeolite.

The zeolite is then placed in a magnetic field, which causes the absorbed sodium ions to align in the direction of the field, creating a magnetic property in the zeolite. To summarize, it is true that zeolites can be made magnetic by adding sodium ions to them.

This is accomplished by exposing the zeolite powder to high temperatures and introducing a solution of sodium ions, which are then absorbed and exposed to a magnetic field that causes the ions to align and create magnetism in the zeolite.

To know more about zeolites refer here:

https://brainly.com/question/28588461#

#SPJ11

The molar mass of the gas is approximately 137.7 g/mol. This corresponds to the molar mass of iodine (I₂). Therefore, the halogen gas sample is iodine gas (I₂).

The ideal gas law relates the pressure, volume, number of moles, and temperature of a gas: PV = nRT

where P is pressure, V is volume, n is the number of moles, R is  ideal gas constant, and T is temperature in Kelvin.

The molar mass of a gas can be determined from its density using the equation:

d = m/V = PM/RT

where d is the density, m is the mass, V is the volume, P is the pressure, M is the molar mass, R is the ideal gas constant, and T is the temperature in Kelvin.

We can use these equations to determine the molar mass and identity of the halogen gas sample:

First, we need to convert temperature to Kelvin:

T = 157°C + 273.15 = 430.15 KN

Next, we can rearrange the density equation to solve for the molar mass:

M = (dRT)/P

M = (7.37 g/L) × (0.0821 L·atm/mol·K) × (430.15 K) / (1.63 atm)

M = 137.7 g/mol

To know more about ideal gas law here

https://brainly.com/question/4147359

#SPJ4

The balanced chemical equation of acetic acid and sodium hydroxide is given as follows:`

CH3COOH + NaOH → CH3COONa + H2O`

Here, acetic acid is CH3COOH and sodium hydroxide is NaOH.

In this reaction, acetic acid reacts with sodium hydroxide to form sodium acetate and water. Acetic acid is a weak acid, while sodium hydroxide is a strong base. When the two are mixed, they react in a neutralization reaction, where the acid and base neutralize each other's properties.

The hydrogen ion (H+) from the acid combines with the hydroxide ion (OH-) from the base to form water (H2O), and the remaining ions (CH3COO- and Na+) combine to form sodium acetate (CH3COONa). The balanced equation ensures that the number of atoms of each element is equal on both the reactant and product sides.

For more question on balanced chemical equation click on

https://brainly.com/question/23877810

#SPJ11

The autoionization reaction for acetic acid (CH₃COOH), is CH₃COOH + H₂O → CH₃COO- + H₃O+.

Acetic acid is also known as ethanoic acid. The first part of the equation, CH₃COOH, represents the acetic acid molecule with one hydrogen atom attached to each of the three oxygen atoms. The second part of the equation, H₂O, represents water.

When acetic acid reacts with water, a hydrogen proton (H+) is released, which is denoted by the H₃O+ on the right side of the equation. The H+ ion binds to the oxygen atoms of the acetic acid, forming a negatively-charged acetate ion, CH₃COO-. This is what is referred to as the autoionization of acetic acid.

The autoionization reaction is important in aqueous solutions of acetic acid because it affects the pH of the solution. Acetic acid is a weak acid, meaning that it does not completely dissociate in water. When it autoionizes, a small percentage of the acetic acid molecules react with the water, increasing the concentration of H+ ions and decreasing the pH of the solution.

As a result, aqueous solutions of acetic acid have pH values lower than 7, typically between 4 and 5.

To know more about acetic acid refer here:

https://brainly.com/question/16970860#

#SPJ11

When a weak base is titrated with a strong acid, the equivalence point is: a weak acid's formation.

The equivalence point happens when the moles of the acid equal the moles of the weak base, and pH = 7. It is because the hydronium ion concentration is identical to the hydroxide ion concentration in pure water at this pH. The pH of a weak base solution can be measured during titration.

The reaction between weak bases and strong acids happens in two steps. The first step is the formation of salt through the reaction between acid and base, and the second step is the hydrolysis of this salt. Anions derived from weak bases react with water and accept protons to produce hydroxide ions.

On the other hand, the cations derived from strong acids do not hydrolyze to produce acidic solutions. They can neither react with the acid nor the water, so the only effect is an increase in the concentration of cations in the solution.

The weak base's concentration before and after the equivalence point is much less than the weak acid concentration that is produced at the equivalence point. During the titration, the pH increases slowly initially, but it rises rapidly near the equivalence point, where the weak acid is produced.

After the equivalence point, the pH of the solution is lower because the excess of strong acid has changed the buffer solution into a weak acid solution.

To know more about weak acids refer here:

https://brainly.com/question/22104949#

#SPJ11

Counting electrons

When drawing molecules, an important first step is to first count the total valence electrons (electrons in the outer shell) in the molecule. Sulfur has 6 valence electrons, each oxygen has 6 valence electrons, and the 2- charge indicates there are 2 additional electrons. This comes out to be a total of 32 electrons.

Drawing the molecule

The next step is to draw the general shape of the molecule. In this case, sulfur is the central atom and 4 oxygens surround it, so draw a sulfur atom labelled as S with 4 oxygens equally spaced around it.

Next, you want to fill in the bonds between each oxygen to the sulfur atom. This will be a total of 4 bonds.

Now, count the number of electrons used. 4 bonds consisting of 2 shared electrons each is 8 electrons. We have 24 electrons left.

Add these remaining 24 electrons to the surrounding oxygens in pairs of 2, making sure that no atom has more than 8 electrons around it (1 bond and 3 pairs).

This is one possible structure of SO4 2-, but it is not the most common one.

Formal charge of each atom in a molecule is calculated by taking the normal amount of valence electrons, in sulfur for example, 6, and subtracting it by the total amount of non-bonding electrons and the amount of bonds. In this case in the structure we just drew above, the formal charge is 6-4=2, where 4 is the amount of bonds to sulfur.

FC=V−N−B/2

this is the equation for formal charge. V is the valence electrons of the atom in its ground state, or when it is not bonded to anything else. N is the number of non-bonding, or loose, electrons around the atom in the molecule. B is the number of electrons that are in bonds.

All atoms in a molecule want to have a formal charge as close to zero as possible, and this is a rare case where sulfur can be an exception to the octet rule and have more than 8 valence electron in order to satisfy this need.

Therefore, in this case, 2 of the single bonds around sulfur can be replaced by double bonds, so that the formal charge is 6-6=0. So, for two of the oxygens, remove one pair of electrons and turn them into bonds with sulfur.

There are several different places you can add these double bonds, which lead to structures called resonant structures. Resonant structures have the same number of non bonding electrons and bonds, but the single and double bonds are in different places.

The attached image is just one resonant structure, but keep in mind there are other possible very similar structures-- for example, the double bonds could be opposite of each other.

These structures are more common as they have the lowest formal charge on the central atom, sulfur.

The Kb of the weak base is 3.60 × 10-12M.

The dissociation constant of the weak base can be calculated by using the following formula:

Kb = Kw / Ka

Where Kw is the ionization constant of water,

Ka is the acid dissociation constant, and Kb is the base dissociation constant.

The pH of the solution can be calculated by using the following formula:

pH = 14 - pOH where pOH is the negative logarithm of the hydroxide ion concentration.

The pOH of the solution can be calculated by using the following formula:

pOH = 14 - pH

The concentration of hydroxide ions can be calculated by using the following formula:

OH- = 10⁻ᵖ[ᵖᵒʰ⁻]

The concentration of the weak base can be calculated by using the following formula:

[B] = [OH-] + Kb / [OH-]

The concentration of hydroxide ions can be calculated by using the following formula:

Kb = [OH-]2 / [B]

Substitute the given values in the formula:[OH-] = 10⁻ᵖ[ᵒʰ]⁻= 10⁻¹².⁴⁰= 3.98 × 10-13[M]

[OH-] ²= 3.98 × 10-13× 3.98 × 10-13= 1.59 × 10-25[M2]

[B] = [OH-] + Kb / [OH-]0.0910 = (3.98 × 10-13) + (Kb / 3.98 × 10-13)

Kb = (0.0910 - 3.98 × 10-13) × 3.98 × 10-13Kb = 3.60 × 10-12M

Hence the Kb of the weak base is 3.60 × 10-12M.

Learn more about base dissociation constant for a weak base : https://brainly.com/question/3484994

#SPJ11

Given that the enthalpy change for the reaction is -67 kJ, the reaction is exothermic, and energy is released as the reaction occurs.

Enthalpy refers to the amount of energy that is stored in a compound's chemical bonds or the heat released or absorbed during a chemical reaction. It is a thermodynamic property that determines the quantity of energy released or absorbed during a process such as chemical reaction or change in state.

When a reaction absorbs energy from its surroundings, it is known as an endothermic reaction. The reaction's enthalpy, which is the energy released or absorbed during a reaction, is positive. The system absorbs energy, which is why it is denoted by a positive value.

When a reaction releases energy into the surrounding, it is referred to as an exothermic reaction. The reaction's enthalpy, which is the energy released or absorbed during a reaction, is negative. The system releases energy, which is why it is denoted by a negative value.

Therefore, the reaction is exothermic and energy is released when the reaction occurs.

To learn more about "enthalpy change", visit: https://brainly.com/question/1445358

#SPJ11

When CaCl₂ is dissolved in water, it dissociates into three ions: one calcium ion (Ca²⁺) and two chloride ions (2Cl⁻). The dissociation of CaCl₂ in water can be represented by the following equation: CaCl₂(s) → Ca²⁺(aq) + 2Cl⁻(aq)

When calcium chloride (CaCl₂) is dissolved in water, it dissociates into three ions - one calcium ion (Ca²⁺) and two chloride ions (2Cl⁻) due to its ionic nature. In water, the polar nature of the water molecules allows them to interact with the ionic compound, causing the ions to separate from each other and become surrounded by water molecules, forming an aqueous solution. The dissociation of CaCl₂ into Ca²⁺ and 2Cl⁻ ions increases the total number of ions in solution and therefore, the electrical conductivity of the solution. This property makes CaCl₂ a useful compound in many industrial and laboratory applications.

Learn more about CaCl₂ here: brainly.com/question/28061218

#SPJ4

The Strong acid's molarity is 0.55952 M, which corresponds to its concentration.

Acid is a kind of chemical substance that has a sour taste and can harm things by corroding them. Many common items like vinegar and lemon juice include acids, which are frequently used as cleaning agents. Acids can also be present in nature, for instance in the rainfall. A neutralized solution, or salt, is produced when an acid and a base react. Bases have a pH level greater than 7, whereas acids have a pH level lower than 7.

Molarity of acid = (Volume of base (mL) * Concentration of base (M) )/ Volume of acid (mL)

In this case, the concentration of the acid would be calculated as follows:

Molarity of acid = (14 mL * 1 M )/ 25.1 mL

= 0.55952 M

To know more about Strong Acid visit:-

https://brainly.com/question/30781545

#SPJ1

In this case, the correct reaction showing how FeCO3 has increased solubility when forming the complex ion Fe(CN)64- is B) FeCO3 (s) + 6 CN- (aq) <-> Fe(CN)64- (aq) + CO32- (aq). So, the correct option is B.

This reaction shows that when FeCO3 is combined with six CN- ions, it forms the complex ion Fe(CN)64-, which is soluble in water. This increases the solubility of FeCO3. The reaction also produces CO32-, which is also soluble in water. There is no increased solubility in FeCO3 when forming the complex ion Fe(CN)64- in all other options. Therefore, the correct answer is option B.

You can learn more about complex ions at: brainly.com/question/31059600

#SPJ11

Answer:

an element

Explanation:

A pure substance that cannot be broken down in ways such as heating, electrolysis, or reaction. Gold, silver, and oxygen are prime examples of elements.

The calcium sample, which contains 2.71 x 1020 particles, thus, has a mass of 0.0181 grammes.

4.52 moles of caco3 are present. For c, a c o 3, the molar mass is 100 grammes per mole. As a result, the mass of c c 3 is equal to moles times molar mass, or 4.52 moles times 100 grammes per mole, which is 452 grammes.

We may use the techniques below to determine the mass of a sample of calcium that contains 2.71 x 1020 particles:

Calculate the number of moles of calcium:

Number of moles = Number of particles / Avogadro's number

= 2.71 x 10²⁰ / 6.022 x 10²³

= 0.000450 mol

Calculate the mass of calcium in grams:

Mass (g) = Number of moles x Atomic mass (g/mol)

= 0.000450 mol x 40.08 g/mol (atomic mass of calcium)

= 0.0181 g

To know more about calcium visit:-

https://brainly.com/question/8768657

#SPJ1

67 L of N2 gas at STP is equivalent to 2.67 moles of N2 ga

To calculate the number of moles of N2 gas, we can use the ideal gas law:

PV = nRT

where:

P is the pressure of the gas

V is the volume of the gas

n is the number of moles of gas

R is the universal gas constant

T is the temperature of the gas in kelvin

Assuming standard temperature and pressure (STP), the pressure is 1 atmosphere and the temperature is 273 K. The volume of gas is 67 L.

So, we have:

PV = nRT

n = (PV) / (RT)

n = (1 atm) x (67 L) / ((0.0821 L·atm/mol·K) x (273 K))

n = 2.67 mol

Therefore, 67 L of N2 gas at STP is equivalent to 2.67 moles of N2 gas.

learn more about moles here

https://brainly.com/question/15356425

#SPJ1

The relative pH at the equivalence point of the titration of a weak acid with a strong base is pH > 7.

The equivalence point in titration is the point at which the amount of added titrant is just enough to completely neutralize the analyte solution. The equivalence point can be found from an acid-base titration curve by the inflection point of the curve. In titration, the equivalence point occurs when the number of moles of titrant is equal to the number of moles of the analyte. For the titration of a weak acid with a strong base, the equivalence point will have a pH greater than 7. This is because the strong base will completely neutralize the weak acid and any excess base will increase the pH of the solution beyond neutrality.

In other words, the solution has become basic because of the excess hydroxide ions added from the titrant, despite the fact that the original substance being analyzed (acetic acid) was acidic. Therefore, the relative pH at the equivalence point of the titration of a weak acid with a strong base is greater than 7.

Know more about Equivalence point here :

https://brainly.com/question/24584140

#SPJ11

In General Chemistry, it is possible to use the Q-test with a 90% confidence level or the standard deviation with a 90% confidence level to decide whether a data point should be ignored when computing the average.

According to Appendix D of the lab manual for General Chemistry, a data point can be considered an outlier and can be ignored when calculating the average if it falls outside the critical range determined by the Q-test at 90% confidence level.

The Q-test is a statistical test that compares the difference between a suspected outlier and the nearest value to it. If the calculated Q-value is greater than the critical Q-value for the given number of data points at 90% confidence level, then the suspected data point is considered an outlier and can be removed from the data set.

Alternatively, the standard deviation can also be used to determine if a data point is an outlier. A data point can be considered an outlier if it falls outside of the range of ± 1.645 standard deviations from the mean at 90% confidence level, or ± 1.96 standard deviations from the mean at 95% confidence level.

In summary, the Q-test at 90% confidence level or the standard deviation at 90% confidence level can be used to determine if a data point should be ignored when calculating the average in General Chemistry.

To learn more about General Chemistry refer to:

brainly.com/question/23686981

#SPJ4

Salt as a solid compound does exist in the ocean, but it is not present as individual molecules. Instead, it exists as ionic compounds like sodium chloride (NaCl) and magnesium chloride (MgCl2), which are dissolved in the water as ions.

Water has the ability to dissolve ionic compounds such as salt because water molecules have polar properties.

Salt is soluble in water due to the charges of salt ions being attracted to water molecules. When salt dissolves in water, the Na+ and Cl- ions are separated from one another and dissolved by the water. This creates a homogenous mixture that we refer to as seawater or saltwater.

Ionic compounds exist in the ocean as dissolved particles. In seawater, salt concentration can range from 3.5% to 5% depending on the ocean region. The concentration of salt in the ocean is responsible for its salinity. When water evaporates from the ocean surface, the salt concentration increases, which in turn raises the salinity of the water.

Learn more about salt at

https://brainly.com/question/29349731

#SPJ11