if 100 j of heat was appled to a 50g cube of each material, which metal would experince the greatest temperature change?

Answers

Answer 1

Copper would experience the greatest temperature change.

Copper has the lowest specific heat capacity of the metals, meaning it can absorb the most heat before its temperature increases. As a result, copper will experience the greatest temperature change when 100 j of heat is applied to a 50g cube.

Specific heat capacity is defined as the amount of energy, in joules, needed to raise the temperature of 1 gram of a substance 1 degree Celsius (C). The specific heat capacity of copper is 0.385 j/g*C, while that of aluminum is 0.903 j/g*C and that of iron is 0.444 j/g*C. Since copper has the lowest specific heat capacity of these metals, it is able to absorb more energy than the other metals.

For example, when 100 j of heat is applied to a 50g cube of each metal, the temperature increase for copper would be approximately 0.77 degrees Celsius, the temperature increase for aluminum would be approximately 0.45 degrees Celsius, and the temperature increase for iron would be approximately 0.22 degrees Celsius.

So, copper would experience the greatest temperature change.

Therefore, the metal that would experience the greatest temperature change when 100 j of heat is applied to a 50g cube is copper.

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Related Questions

true or false: when two solutions containing ions as solutes are combined and a reaction occurs, it is always a single-replacement reaction.

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The statement that "when two solutions containing ions as solutes are combined and a reaction occurs, it is always a single-replacement reaction" is False.

When two solutions containing ions as solutes are combined and a reaction occurs, it is not always a single-replacement reaction.

The type of reaction that will occur depends on the reactants and the conditions of the reaction.

For example, if two solutions containing different metal ions are mixed together, a double-replacement reaction may occur, in which two ionic compounds are formed.

Similarly, a precipitation reaction may occur if the combination of the two solutions produces an insoluble product.

In general, single-replacement reactions involve one element replacing another element in a compound, and occur when one of the reactants is an elemental solid, such as a metal.

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How much KNO3 will dissolve in 200 grams H2O at 70 C

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The red line shows that at 70 °C, 200 g of water will be saturated with about 140 g or potassium nitrate.

How does solubility in 100 grammes of water become calculated?

This mass of a compound would be divided by mass of the solvent, and then divided by 100 g to determine its solubility. This calculation will give the solubility of the substance in g/100g.

How does the temperature affect KNO3's solubility in water?

The curves demonstrate that when temperature rises, solubility of any and all three solutes increases. The most noticeable increase in solubility is for potassium nitrate, which goes from about 30 g per 100 g of water from over 200 grams per 100 grams of water.

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The chemical weathering process known as oxidation would be most effective in the breakdown of which of the following Earth minerals?
pyroxenes
quartz
calcite
halite
feldspar

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The chemical weathering process known as oxidation would be most effective in the breakdown of pyroxenes, quartz, calcite, and feldspar Earth minerals.

Oxidation is a chemical reaction between oxygen and other substances in the environment which causes a breakdown of the Earth minerals, resulting in their decomposition. Halite, or sodium chloride, is an example of a mineral that is not affected by the oxidation process.

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how many different alkenes result when 2-bromohexane is treated with a strong base? select answer from the options below 1 2 3 4

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When 2-bromohexane is treated with a strong base the alkenes that would result is given as 1

What alkenes would result

When 2-bromohexane is treated with a strong base, such as sodium ethoxide (NaOEt) or sodium hydroxide (NaOH), it undergoes elimination reaction (also called dehydrohalogenation) to form different alkenes.

The product(s) of the reaction depend on the position of the β-carbon (the carbon next to the bromine atom) that undergoes deprotonation. Since there are two β-carbons in 2-bromohexane, two different alkenes can be formed.

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what is the correct way to write the formula of the compound formed by a hydrogen ion and a sulfate ion? group of answer choices h 2 (so 4 ) 2 hso 4 h 2 so 4 h(so 4 ) 2

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The correct way to write the formula of the compound formed by a hydrogen ion and a sulfate ion is c. h2so4.

A compound is a pure substance composed of two or more different atoms chemically bonded in a fixed proportion. The atoms in a compound can be combined in a range of methods and in various ratios. When atoms of two or more elements chemically combine, they form a compound.

The hydrogen ion or proton has a chemical symbol of H+. Chemical formula of sulfate ion. The chemical formula for sulfate ion is SO42-. Formula of the compound formed by a hydrogen ion and a sulfate ion. The formula of the compound formed by a hydrogen ion and a sulfate ion is h2so4.

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Use the electron-transfer method to balance this redox equation: Aluminum metal reacts with hydrochloric acid to produce aluminum III chloride and hydrogen gas.

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The balanced equation for the redox reaction when Al metal reacts with HCl is 2Al + 6HCl -> 2[tex]AlCl_{3}[/tex] + 3[tex]H_{2}[/tex].

How to balance redox reactions via Electron Transfer Method?

To balance the redox equation for the reaction between aluminum metal and hydrochloric acid using the electron transfer method, follow these steps:

Step 1: Write the unbalanced equation:
Al + HCl -> [tex]AlCl_{3}[/tex] + [tex]H_{2}[/tex]

Step 2: Separate the equation into half-reactions:
Oxidation half-reaction: Al -> [tex]Al^{3+}[/tex]
Reduction half-reaction: [tex]H^{+}[/tex] -> [tex]H_{2}[/tex]

Step 3: Balance the atoms in each half-reaction, except for oxygen and hydrogen:
Oxidation half-reaction: Al ->  [tex]Al^{3+}[/tex] (already balanced)
Reduction half-reaction: 2[tex]H^{+}[/tex] -> [tex]H_{2}[/tex]

Step 4: Balance the charges in each half-reaction by adding electrons:
Oxidation half-reaction: Al -> [tex]Al^{3+}[/tex] + 3[tex]e^{-}[/tex]
Reduction half-reaction: 2[tex]H^{+}[/tex] + 2[tex]e^{-}[/tex] -> [tex]H_{2}[/tex]

Step 5: Equalize the number of electrons transferred in both half-reactions by multiplying the half-reactions by appropriate factors:
Oxidation half-reaction: 2(Al -> [tex]Al^{3+}[/tex] + 3[tex]e^{-}[/tex] ) -> 2Al -> 2[tex]Al^{3+}[/tex]  + 6[tex]e^{-}[/tex]
Reduction half-reaction: 3(2[tex]H^{+}[/tex]  + 2[tex]e^{-}[/tex] -> H2) -> 6[tex]H^{+}[/tex]  + 6[tex]e^{-}[/tex] -> [tex]H_{2}[/tex]

Step 6: Add the balanced half-reactions back together:
2Al + 6[tex]H^{+}[/tex] -> 2[tex]Al^{3+}[/tex] + 3[tex]H_{2}[/tex]

Step 7: Add back the spectator ions (chloride ions) to complete the balanced equation:
2Al + 6HCl -> 2[tex]AlCl_{3}[/tex] + 3[tex]H_{2}[/tex]

The balanced redox equation using the electron transfer method is:
2Al + 6HCl -> 2[tex]AlCl_{3}[/tex] + 3[tex]H_{2}[/tex]

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give the charge of the stable ion formed by each of the following. include the sign ( or -) and magnitude (numerical value) of the charge in every case. (note: give only the charge, not the formula of the ion.) 1. a group 2a metal 2. a group 3a metal

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A group 2A metal will form a stable ion with a charge of +2. Examples of group 2A metals include magnesium (Mg), calcium (Ca), and strontium (Sr).

A group 3A metal will form a stable ion with a charge of +3. Examples of group 3A metals include boron (B), aluminum (Al), and gallium (Ga).

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1. A metal of group 2A, plus

2. A metal from group 3A, - 3+

A What is charge?

Both positive and negative charges are possible. We are aware that a positive charge is created when a species has more protons than electrons. A negative ion, on the other hand, is one that has more electrons than protons.

We now understand that metals mostly produce positive ions. The group that the metal belongs to in the periodic table determines how much charge is on the ions.

The ions' charges are as follows:

1. A metal of group 2A, plus

2. A metal from group 3A, - 3+

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Iron oxide, known as hematite, is the main source of iron for the steel industry. It is created when iron and oxygen combine in a thermal decomposed reaction. It can be described using the equation 4Fe + 3O2 = 2Fe2O3. If 19.2 g of O2 reacts with iron to form 63.84 g of oxide, how much iron in grams was used in the reaction?

Answers

The balanced equation for the reaction is:

4Fe + 3O2 -> 2Fe2O3

We are given the mass of oxygen and the mass of iron oxide produced. To find the mass of iron used in the reaction, we need to use stoichiometry to relate the masses of the reactants and products.

First, we can calculate the molar mass of Fe2O3:

Fe2O3 = 2(55.845 g/mol) + 3(16.00 g/mol) = 159.69 g/mol

Next, we can use the mass of iron oxide produced to find the number of moles of Fe2O3:

63.84 g Fe2O3 × (1 mol Fe2O3/159.69 g Fe2O3) = 0.400 mol Fe2O3

Since the reaction produces 2 moles of Fe2O3 for every 4 moles of Fe, we can find the number of moles of Fe:

0.400 mol Fe2O3 × (4 mol Fe / 2 mol Fe2O3) = 0.800 mol Fe

Finally, we can use the molar mass of Fe to convert the number of moles to grams:

0.800 mol Fe × 55.845 g/mol = 44.68 g Fe

Therefore, 44.68 grams of iron were used in the reaction.

if the actual yield for a reaction was 5.6 g, and the percent yield was 84.3%, what was the theoretical yield?

Answers

The theoretical yield was 6.64 g

To calculate the theoretical yield of a reaction, we need to use the percent yield formula and rearrange it to solve for the theoretical yield. The percent yield is defined as:

percent yield = (actual yield / theoretical yield) x 100%

Rearranging this equation, we can solve for the theoretical yield:

theoretical yield = actual yield / (percent yield/100%)

Plugging in the given values, we get:

theoretical yield = 5.6 g / (84.3%/100%)

theoretical yield = 6.64 g

Therefore, the theoretical yield of the reaction was 6.64 g.

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a substance has a ph that is lower than the ph of household bleach but higher than the ph of egg whites. based on this information, the substance is

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The substance with a pH that is lower than bleach but higher than egg whites would have a pH between 8 and 12.

What is pH?

pH is a measure of the acidity or basicity (alkalinity) of a solution. It is measured on a scale from 0 to 14, with a pH of 7 considered neutral. pH values below 7 indicate acidity, while pH values above 7 indicate basicity.

Household bleach has a pH of around 12-13, while egg whites have a pH of around 7-8. Therefore, the substance with a pH that is lower than bleach but higher than egg whites would have a pH between 8 and 12.

Substances with a pH in this range include baking soda (pH around 9), milk of magnesia (pH around 10), and ammonia solution (pH around 11). However, without further information, it is impossible to determine the exact substance with certainty.

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how many moles of iron metal are produced when 3.2 mol iron (iii) oxide and 2.3 mol carbon monoxide react? fe2o3 3co -------> 2fe 3co2 step by step

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Answer : When 3.2 moles of iron (III) oxide and 2.3 moles of carbon monoxide react, 2 moles of iron metal are produced.

2 moles of iron metal are produced when 3.2 moles of iron (III) oxide (Fe2O3) and 2.3 moles of carbon monoxide (CO) react. The balanced chemical equation for this reaction is: Fe2O3 + 3CO --> 2Fe + 3CO2.

This reaction is a combustion reaction, meaning it involves the oxidation of iron (III) oxide by the carbon monoxide. Oxygen from the iron oxide is released as carbon dioxide (CO2) and the iron is left in the reduced form, or elemental iron (Fe).

To calculate the moles of iron metal produced, the mole ratio of Fe2O3 to Fe must be determined. From the balanced equation, it can be seen that for every 1 mole of Fe2O3, 2 moles of Fe are produced. Therefore, to calculate the number of moles of Fe, multiply the number of moles of Fe2O3 by 2. In this case, that would be 3.2 moles of Fe2O3 x 2 = 6.4 moles of Fe.

Finally, to get the number of moles of Fe metal produced, subtract the number of moles of Fe2O3 from the number of moles of Fe. In this case, 6.4 moles of Fe - 3.2 moles of Fe2O3 = 2 moles of Fe metal.



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which of the following processes is not spontaneous at room temperature? ice melting salt dissolving in water hot coffee cooling down hot tea getting hotter silver tarnishing

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At room temperature, ice melting, salt dissolving in water, hot coffee cooling down, and hot tea getting hotter are all spontaneous processes. Silver tarnishing, however, is not a spontaneous process at room temperature.

What is spontaneity?

Spontaneity is defined as a procedure that happens without external impact. The procedures that occur without any interference are known as spontaneous procedures, and the ones that occur only with external influence are called non-spontaneous procedures. The distinction between spontaneous and non-spontaneous processes is the focus of thermodynamics. Processes that happen on their own are referred to as spontaneous.

Examples of spontaneous processes are Ice melting, Salt dissolving in water, and hot tea getting hotter.

An example of a non-spontaneous process is Silver tarnishing.

The conditions of the spontaneous processes are ΔS > 0ΔH < 0ΔG < 0 at room temperature.

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how many different alkenes result when 3-bromo-3-methylheptane is treated with a strong base? select answer from the options below 6 3 5 2 4

Answers

The number of alkenes formed depends on the position of the bromine and the methyl group on the carbon chain.

What are alkenes?

An alkene is described as a hydrocarbon containing a carbon–carbon double bond and often used as synonym of olefin, that is, any hydrocarbon containing one or more double bonds.

When 3-bromo-3-methylheptane is treated with a strong base, an elimination reaction occurs, resulting in the formation of alkenes.

The elimination reaction happens by removing a proton from a beta-carbon (i.e., a carbon adjacent to the carbon bearing the bromine atom) and the bromine atom to form an alkene.

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how many milliliters of 11.5 m hcl(aq) 11.5 m hcl ( aq ) are needed to prepare 855.0 ml 855.0 ml of 1.00 m hcl(aq)?

Answers

74.3 mililiters of 11.5 M HCl (aq) is required to prepare 855.0 mL of 1.00 M HCl (aq).

Dilution formula

To calculate how many milliliters of 11.5 M HCl (aq) are required to prepare 855.0 mL of 1.00 M HCl (aq), we will utilize the dilution formula.

The formula for dilution is:

C₁V₁ = C₂V₂

Where:

C₁ = initial concentration

V₁ = initial volume

C₂ = final concentration

V₂ = final volumeIn this case

C₁ = 11.5 M

V₁ = ?

C₂ = 1.00 M

V₂ = 855.0 mL

Firstly, let's rearrange the formula and solve for V₁ by substituting the given values. We will then calculate the value of V₁:

C₁V₁ = C₂V₂

11.5 M V₁ = 1.00 M × 0.855 L

V₁ = 1.00 M × 0.855 L / 11.5 M = 0.07434 l or 74.34 ml

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how many unique sets of 4 quantum numbers are there to represent the electrons in the 4f subshell? remember that the pauli exclusion principle states that each electron must have its own unique set of 4 quantum numbers.

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The number of unique sets of 4 quantum numbers to represent the electrons in the 4f subshell is 70.

The four quantum numbers that make up an electron's set are the:

(i) principal quantum number (n)

(ii) angular momentum quantum number (l)

(iii) magnetic quantum number (m_l)

(iv) spin quantum number (m_s).

Each of these electrons has a limited range of the above numbers in their respective shell.

The principal quantum number for all the electrons in the 4f subshell is 4.

The angular momentum quantum number has a value of 3 corresponding to the f subshell.

The magnetic quantum number has a range of -3 through +3 for the electrons in the f subshell.

The spin quantum number has a range of -1/2 or +1/2.

Even if the principal quantum number and angular momentum quantum number are the same for all the electrons, the other two factors contribute to each electron having a unique set of quantum numbers.

Therefore, when these four quantum numbers are combined, they make up 70 unique sets of 4 quantum numbers that can be used to represent the electrons in the 4f subshell, in accordance with the Pauli Exclusion Principle.

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write the chemical equation for the ion pairing of sr2 (aq) and c2o42-(aq) leading to their soluble ion pair.

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The chemical equation for the ion pairing of Sr2+ (aq) and C2O42- (aq) leading to their soluble ion pair is given by the following chemical equation: Sr2+ (aq) + C2O42- (aq) ⇌ SrC2O4 (s).



Here, Sr2+ (aq) is an aqueous solution of strontium ions and C2O42- (aq) is an aqueous solution of oxalate ions. When these two solutions are mixed, they undergo a reaction to form a precipitate of strontium oxalate (SrC2O4) which is a soluble ion pair.

The reaction is reversible because the soluble ion pair can dissociate into its constituent ions under certain conditions. The solubility of the ion pair is determined by the equilibrium constant (Ksp) of the reaction which is given by the following equation: Ksp = [Sr2+][C2O42-] where [Sr2+] and [C2O42-] are the concentrations of strontium ions and oxalate ions in the solution, respectively.

Thus, the chemical equation for the ion pairing of Sr2+ (aq) and C2O42- (aq) leading to their soluble ion pair is: Sr2+ (aq) + C2O42- (aq) ⇌ SrC2O4 (s).

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a solution is prepared by dissolving 99.7 g of nai in enough water to form 895 ml of solution. calculate the mass % of the solution if the density of the solution is 1.06 g/ml.

Answers

The mass % of the solution if the density of the solution is 1.06 g/ml is 10.51%

The mass of NaI = 99.7 g

Volume of the solution = 895 ml

Density of the solution = 1.06 g/ml

To calculate the mass % of the solution, we have to calculate the mass of the solution first.

Step-by-step explanation:

The formula for density is given by:

Density = Mass/Volume

Or,

Mass = Density × Volume

Now, we will calculate the mass of the solution.

Mass = Density × Volume

        = 1.06 × 895= 948.7 g

Now, we will calculate the mass % of the solution.

Mass % = (Mass of solute/Total mass of solution) × 100

Mass of solute = 99.7 g

Total mass of solution = 948.7 g

Mass % = (99.7/948.7) × 100

             = 10.51%

Therefore, the mass % of the solution is 10.51%.

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to what volume (in ml) would you need to dilute 45.0 ml of a 1.20 m solution of nabr to make a 0.0400 m solution of nabr?

Answers

To dilute 45.0 ml of a 1.20 M solution of NaBr to a 0.0400 M solution, you need to add enough water to a total volume of 226.25 ml.

The dilution formula is M1V1 = M2V2, where M1 and V1 are the initial molarity and volume of the solution and M2 and V2 are the desired molarity and volume of the dilute solution.

Calculate V2 (the desired volume) by rearranging the equation and solving for V2: V2 = (M1V1) / M2.

V2 = (1.20M * 45.0ml) / 0.0400M = 226.25ml.

Therefore, to create a 0.0400 M solution of NaBr from a 1.20 M solution of NaBr, you need to add enough water to a total volume of 226.25 ml.

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tetracycline is an antibiotic containing multiple functional groups. which functional groups are present in this molecule? (select all that apply).

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Answer: Tetracycline is an antibiotic containing multiple functional groups, including an amine group, an alcohol group, a carboxylic acid group, and a ketone group.

Tetracycline is an antibiotic containing multiple functional groups. The functional groups present in this molecule are an amine group, an alcohol group, a carboxylic acid group, and a ketone group.

The amine group is composed of nitrogen and hydrogen atoms, and is often found in organic compounds. It is also known as an amino group.

The alcohol group is composed of an oxygen and hydrogen atom bonded to a hydrocarbon group, usually a single bond. It is also known as a hydroxyl group.

The carboxylic acid group is composed of a carbonyl and hydroxyl groups, and is often found in organic compounds. It is also known as an carboxyl group.

The ketone group is composed of two oxygen atoms and two carbon atoms, and is often found in organic compounds. It is also known as a keto group.

In conclusion, tetracycline is an antibiotic containing multiple functional groups, including an amine group, an alcohol group, a carboxylic acid group, and a ketone group.



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determine the mass percent (to the hundredths place) of h in sodium bicarbonate (nahco3). 14.30 27.36 1.20 57.14 19.05

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The mass percent of hydrogen in sodium bicarbonate (NaHCO3) is 1.20% (to the hundredths place).

To determine the mass percent of hydrogen (H) in sodium bicarbonate (NaHCO3), we need to first calculate the molar mass of NaHCO3, which is:

NaHCO3 = 1(Na) + 1(H) + 1(C) + 3(O)

= 23.00 + 1.01 + 12.01 + (3 x 16.00)

= 84.01 g/mol

The mass of hydrogen in one mole of NaHCO3 is 1.01 g, since there is only one hydrogen atom in each molecule of NaHCO3.

Therefore, the mass percent of hydrogen in NaHCO3 can be calculated as follows:

mass percent H = (mass of H / mass of NaHCO3) x 100%

= (1.01 g / 84.01 g) x 100%

= 1.20%

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the density of acetic anhydride (c4h6o3) is 1.08 g/ml. if 5.65 ml of acetic anhydride is used in the experiment, then how many moles of acetic anhydride was used?

Answers

The number of moles of acetic anhydride used is 0.06 moles.

The number of moles of acetic anhydride (C₄H₆O₃) can be calculated by multiplying the given volume by the given density, and then dividing the result by the molar mass of acetic anhydride. The molar mass of acetic anhydride (C₄H₆O₃) is the sum of the atomic weights of each element.

In this case, we have : Volume (V) = 5.65 mL, Density (ρ) = 1.08 g/mL, and Molar mass (M) = 102.09 g/mol

Solving for the number of moles, we get:

Number of moles (n) = V x ρ / M

n = 5.65 mL x 1.08 g/mL / 102.09 g/mol

n = 0.06 moles of acetic anhydride

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Calculate the molality of a solution that contain 90. 0g of benzoic acid in 350 ml of water

Answers

The molality of a solution that contain 90. 0g of benzoic acid in 350 ml of water is 2.102 mole / kg.

The molarity of a solution is defined as the number of moles of solute dissolved in one liter of solution. Molarity can be expressed as the ratio of a solvent's moles to a solution's total liters. Both the solute and the solvent are part of the solution in calculating the molarity. It is the ratio of the solute moles to the solvent kilograms.

Molarity = Number of moles of solute Volume of solution in liter.

moles of C6H5COOH = 90.0 g / 122.12g/mole

                                     = 0.736 mole

Now we have to calculate the mass of water.

            = (350 ml) (1 g/ml) * 1L/ 1000ml

            = 0.350 kg

Molarity =  0.736 mole/  0.350 kg

             = 2.102 mole / kg.

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147 grams of argon to liters

Answers

Answer:

Explanation:

3.6797837188344116 mol

mariela finds that an element's most stable ion forms x2 . the ion of element x has a mass number of 137 and 54 electrons. a) (2 pts) what is the identity of the element x? b) (2 pts) how many neutrons does it have?

Answers

Answer: a) The identity of element X is Xenon. b) There are 83 neutrons in element X.

In order to identify the element X, let's first find its atomic number. The number of electrons in the neutral atom is equivalent to the atomic number of the particular element. The ion of element X has a total of 54 electrons, so X has 54 protons, implying that X's atomic number is 54. The atomic number of a chemical element is the number of protons in its atomic nucleus.

b) The number of neutrons in an atom is equal to the mass number minus the atomic number of the element. Thus, the number of neutrons in element X can be determined by subtracting 54 from 137, which gives 83 neutrons inside atom of elements.

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the strongest intermolecular forces are nearly as strong as the forces that hold atoms together in a molecule. true false

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The statement "the strongest intermolecular forces are nearly as strong as the forces that hold atoms together in a molecule" is a false statement. The forces that hold atoms together within a molecule are primarily chemical bonds that are incredibly powerful forces.

Intermolecular forces are the forces of attraction and repulsion between different molecules or particles. In contrast, intramolecular forces refer to the forces that hold atoms together within a molecule.

There are three main types of intermolecular forces:

Van der Waals forcesHydrogen bondsDipole-dipole interactions

These forces are considerably weaker.

The forces that hold atoms together within a molecule are primarily chemical bonds that are incredibly powerful forces. The forces of chemical bonds involve the sharing or transfer of electrons between atoms. Covalent bonds, ionic bonds, and metallic bonds are examples of chemical bonds that hold atoms together in molecules. These bonds are so strong that they are difficult to break.

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if a chemical is spilled onto the face, wait until you have washed the chemicals off before removing your glasses. group of answer choices true false

Answers

Never use a spatula to empty a bottle with solid chemicals. You will contaminate the chemical if you do this. Pour solid into your straight in place of it.

If you spill a chemical on oneself, what should you do?

If this solid substance or a liquid containing it comes in touch with your skin, immediately wash it with soap and water to remove any contamination. After cleaning, seek medical assistance if the irritation continues.

What should you do if you just splattered a chemical on someone's face?

The area should be immediately thoroughly flushed with water for at least 15 minutes. Try to prevent cross-contamination if flushing your eyes is not necessary.

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what is the original pressure of the gas ?

Answers

The original pressure of gas is 4 atm for given volume of 30 liters . This is taken out by boyle law.

What is boyle law ?

Boyle's law is an experimental gas law that specifies the relationship between pressure and volume of a confined gas. It is also known as the Boyle-Mariotte law or Mariotte's law (particularly in France). Boyle's law states that the absolute pressure exerted by a given mass of an ideal gas is inversely proportional to the volume it occupies within a closed system if the temperature and amount of gas remain constant.According to Boyle's Law, while the temperature of a given mass of confined gas remains constant, the product of its pressure and volume remains constant as well. When comparing the same substance under two sets of conditions

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all of the following are characteristics of nitrous oxide except: weak anesthetic. strong analgesic. strong amnesia. respiratory depression.

Answers

The correct answer for the given question is option B strong analgesic.

What is nitrous oxide ?

Nitrous oxide, also known as laughing gas, is a colorless, slightly sweet-smelling gas with the chemical formula N2O. It is a naturally occurring compound that can be synthesized for various uses, including medical and dental procedures, as well as for use as a propellant in whipped cream dispensers and racing cars.

Nitrous oxide is a weak anesthetic, meaning it does not provide complete loss of consciousness but can help reduce anxiety and pain during medical procedures. It is commonly used in combination with other anesthetics, such as oxygen or intravenous sedatives, to achieve a deeper level of anesthesia.

Nitrous oxide is a weak anesthetic and does not provide strong analgesia, but it does have some analgesic properties. It also has strong amnesic effects, meaning that patients may not remember the procedure after it is completed. However, it generally does not cause respiratory depression unless used in very high concentrations.

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A 0.682-gram sample of an unknown weak monoprotic organic acid, HA, was dissolved in sufficient water to make 50.0 mL of solution and was titrated with a 0.135 M NaOH solution. After the addition of 10.6 mL of base, a pH of 5.65 was recorded. The equivalence point was reached after the addition of 27.4 mL of the 0.135 M NaOH.
a. Calculate the number of moles of acid in the original sample.
b. Calculate the molar mass of the organic acid.
c. Calculate the molarity of the unreacted HA remaining in the solution at pH = 5.65.

Answers

a. The number of moles of acid in the original sample is 0.00369. b. The molar mass of the organic acid is 0.135  M. c. The molarity of the unreacted HA remaining in the solution at pH 5.65 is 0.045 M

Calculation:

a. The equivalence point was reached after the addition of 27.4 mL of the 0.135 M NaOH.a.

Moles of NaOH = M × V = 0.135 M × 27.4 mL = 0.00369 moles

Using the balanced equation, we find that the number of moles of HA is equal to the number of moles of NaOH at the equivalence point. HA + NaOH → NaA + HOH0. 00369 moles of NaOH are needed to react with 0.00369 moles of HA.

b. Molar mass of HA = (mass of HA) / (number of moles of HA) = 0.682 g / 0.00369 moles = 184.7 g/molc. Calculate the molarity of the unreacted HA remaining in the solution at pH = 5.65.The pH of the solution was 5.65 after 10.6 mL of NaOH were added.

c. To calculate the molarity of the remaining HA, we first need to find the pKa of the acid.

pH = pKa + log([A-]/[HA])5.65 = pKa + log([A-]/[HA]). We know that at the equivalence point, [A-] = [HA] / 2.

Therefore,[A-] = 0.00369 moles / 2 = 0.00185 moles[Ligand] = (moles of ligand) / (liters of solution). We need to find [HA] in moles/L, so we need to find [A-] in moles/L. We can use the molarity of the NaOH solution to do this. [NaOH] = 0.135 M

moles of NaOH = [NaOH] × (liters of solution)moles of NaOH = 0.135 M × 0.0106 L.

moles of NaOH = 0.00144 moles

moles of HA at pH = 5.65 = moles of HA initially - moles of NaOH added = 0.00369 moles - 0.00144 moles

= 0.00225 moles[HA] = 0.00225 moles / 0.050 L = 0.045 M

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on the basis of the information in the chart and what you know about atomic structure, which elements form stable but reactive diatomic gases?

Answers

On the basis of the information in the chart and what you know about atomic structure, the elements that form stable but reactive diatomic gases are hydrogen, nitrogen, oxygen, and fluorine.

A diatomic element is an element that can form two-atom molecules. The diatomic elements' covalent bonds keep these molecules together. The prefix "di-" in "diatomic" indicates two and diatomic gases, or simply diatomics, are gases consisting of molecules with two atoms of the same or different chemical elements in their molecule.

The four most well-known diatomic elements are hydrogen (H2), nitrogen (N2), oxygen (O2), and fluorine (F2). The general formula for diatomic molecules is X2, where X represents an element. Some other examples include chlorine (Cl2), bromine (Br2), and iodine (I2). A stable but reactive diatomic gas is a diatomic gas that is chemically stable enough to exist as a molecule but is chemically reactive. These diatomic gases usually do not react spontaneously or violently, but they may react with other chemicals under the proper conditions.

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