A child complains that his soup is too hot. His mother places an ice cube in the soup to cool it.

How will the soup's thermal energy behave?

It will absorb thermal energy from the ice cube.

It will flow from the soup to the ice cube.

It will be destroyed and disappear.

It will not react to the ice cube's presence.

Answer:

See explaination

Explanation:

We have to understand the reason of temperature change , when NaOH reacts with HCl neutralization reaction occurs producing energy. When this released energy is absorbed temperature is increased.

So when 1 mole off NaOH reacts with 1 mole of HCl reacts 57.3 KJ of energy is released .

During a reaction for , when equivalent number of moles reacts higher energy will be produced.

If 80 ml HCl and 20 ml NaOH reacts , then only 20 ml NaOH reacts with 20 ml of HCl and rest 60 ml is not reacting.

But when 60 ml HCl and 40 ml NaOH reacts 40 ml of each are reacting, so energy produced will be higher.

so B > A

For II the observed phenomena is already discussed as higher number of moles of HCl and NaOH reacts so , due to which higher energy is released and thus temperature is higher.

50 ml of each HCl and NaOH produces largest temperature change , as higher number of moles of HCl and NaOH reacts so , due to which higher energy is released and thus temperature is higher.

Answer:

  84 g

Explanation:

The molecular weight of nitrogen is 14.01 g/mol. That of oxygen is 16.00 g/mol, so the weights of the various elements available are ...

From NO

  N: (14.01/(14.01+16.00))·(80 g) = 37.35 g

  O: 80 g -37.35 g = 42.65 g

From O₂

 O: 16 g

__

In each mole of NO₂, the weight of the oxygen is 2(16.00) = 32 g. The weight of the nitrogen is 1(14.01) = 14.01 g.

From the available oxygen, we can produce ...

  (42.65 g +16 g)/(32.00 g/mol) = 1.83 mol of NO₂

From the available nitrogen, we can produce ...

  (37.35 g)/(14.01 g/mol) = 2.67 mol of NO₂

Clearly, the reaction is limited by the amount of available oxygen. Then the mass of the NO₂ that can be produced is ...

  (1.83 mol)(32.00 +14.010 g/mol = 84.3 g ≈ 84 g.

84 grams of NO₂ are produced.

Answer:

1.68L

Explanation:

Step 1:

Data obtained from the question. This includes the following:

Initial Molarity (Mi) = 7M

Initial volume (Vi) 0.6L

Final Molarity (Mf) = 2.5M

Final Volume (Vf) =.?

Step 2:

Determination of the final volume of the solution.

This can be achieved as shown below:

MiVi = MfVf

Divide both side by Mf

Vf = MiVi /Mf

Vf = 7 x 0.6 / 2.5

Vf = 1.68L

Therefore, the new volume of the solution is 1.68L

The Answer To This Question Will Be :

Jose is correct because there is always a force acting upon something. The book is moving by force but you can't see it. Gravity is pulling the book down, but the desk is holding it up. Equal and opposite

Jose is right, as the book is lying on the table, equal and opposite forces are acting on it.

According to Newton's first law, an object can only move when it is acted upon by unbalanced forces. If a body is acted upon by balanced forces, it does not move.

As the book is lying on the table it is acted upon by two equal and opposite forces, of weight and the reaction. Since the forces are equal and opposite, the book does not move.

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The family is most likely to face higher costs for the monthly heating bill by switching to energy from a solar power plant. Although solar power is a renewable and clean energy source, the initial installation and maintenance costs of solar panels can be expensive, resulting in higher monthly bills compared to using natural gas.

Solar power harnesses energy from the sun's radiation to generate electricity or heat. Photovoltaic cells convert sunlight into electricity, while solar thermal systems use sunlight to produce steam for electricity generation or provide direct heating. Solar power is a sustainable and renewable energy source with minimal environmental impact.

The family is most likely to face higher costs for the monthly heating bill by switching to energy from a solar power plant. Although solar power is a renewable and clean energy source, the initial installation and maintenance costs of solar panels can be expensive, which can result in higher monthly bills compared to using natural gas. Additionally, the family may also face limitations in the amount of heat produced as solar power can be dependent on weather conditions.

It showed that the richest Harappan citizens had excess food to trade or sell. It showed that Harappa could store excess food to save, sell, or trade with others.

Answer:

2.44 K IS THE TEMPERATURE OF THE GAS

Explanation:

PV = nRT

P = 0.5 atm

V = 2 L

n = 5 moles

R = 0.082 L atm mol^-1 K^-1

T = ?

Substituting for T in the equation, we obtain:

T = P V / nR

T = 0.5 * 2 / 5 * 0.082

T = 1 / 0.41

T = 2.44 K

The temperature of the gas is 2.44 K

The molality of a solution with 55g of sucrose dissolved in 950mL of water is 0.1692 mol/kg, calculated by dividing the moles of sucrose by the kilograms of water.

To calculate the molality of a solution in which 55g of sucrose are dissolved in 950mL of water, we first need to find the number of moles of sucrose and the mass of the solvent (water) in kilograms.

The molar mass of sucrose (C₁₂H₂₂O₁₁) is approximately 342.3 g/mol. 55 grams of sucrose is therefore 55 g / 342.3 g/mol = 0.1607 mol. Since density of water is approximately 1 g/mL, 950 mL of water weighs 950 g, which is the same as 0.950 kg.

The molality (m) is then calculated using the formula m = mol solute/kg solvent. Substituting the values we have, 0.1607 mol/0.950 kg = 0.1692 mol/kg. So, the molality of the solution is 0.1692 m.

Answer:

C. the relative number of atoms of each element, using the lowest whole ratio.

Explanation:

The empirical formula is how we simplify the whole formula to simplify it to its smallest indivisible parts.

It is definitely not the actual number of atoms. If you see an empirical formula, don't think that it's the full thing.

It is also not a representation of a compound to show its atoms' arrangement: this would be a Lewis dot structure, or a ball and stick model, or something similar. We don't use the empirical formula for this purpose.

Answer:

Solution A has a lower pH level because it is more acidic. This means that there is a greater amount of hydronium [[tex]H_{3}O[/tex]] present in the solution which results in a more acidic solution.

To find the number of moles in 108 grams of water, divide the given mass by the molar mass of water, which is 18.02 grams per mole. The number of moles is 6.

To determine the number of moles in 108 grams of water (H2O), we can use the molar mass of water as a conversion factor. The molar mass of water is 18.02 grams per mole. So, to find the number of moles, divide the given mass by the molar mass:

Number of moles = Mass of water / Molar mass of water

Number of moles = 108 g / 18.02 g/mol

Number of moles = 6 moles.

Answer:

Reactants

Explanation:

A reactant is a substance that takes part in and undergoes change during a reaction.

Answer:

Ca(aq)⁺²  + CO₃⁻²(aq) → CaCO₃(s)

Explanation:

Breaking down the equation into ionic form gives:

2Na⁺(aq) + CO₃⁻²(aq) + Ca⁺²(aq) + 2NO₃⁻¹ (aq)  →  2Na⁺(aq) + 2NO₃⁻¹(aq)  + CaCO₃(s)

Eliminating all the same ionic states on both sides of the equation gives following final equation

Ca(aq)⁺²  + CO₃⁻²(aq) → CaCO₃(s)

Net ionic equation:-

[tex]Ca^{+2}(aq)+ CO_3^{-2}(aq) \rightarrow CaCO_3(s)[/tex]

Given equation:-

[tex]Na_2CO_3(aq)+Ca(NO_3)_2(aq)\rightarrow2NaNO_3(aq)+CaCO_3(s)[/tex]

Breaking down the equation into ionic form gives:

[tex]2Na^{+} (aq) + CO_3^{-2} (aq) + Ca^{2+}(aq) + 2NO_3^{-}(aq) \rightarrow 2Na^{+} (aq) + 2NO_3^{-} + CaCO_3(s)[/tex]

 Eliminating all the same ionic states on both sides of the equation gives the equation as follows:-

[tex]CO_3^{-2} (aq) + Ca^{2+}(aq) + \rightarrow CaCO_3(s)[/tex]

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Answer:

protons

Explanation:

Protons is the answer, because they are what determines the identity of an element. Hydrogen always has one proton. No more, no less.

You can remove electrons from an element and it is still the same element. We call it an ion when this happens: think of something like Na+ or Cl-. An electron has been taken or added to those elements, but they're still the same element!

You can remove neutrons from an element and it is still the same element. We call it an isotope when this happens: maybe you've heard of carbon-14, which has two extra neutrons. We use that in carbon-dating. It's still carbon, though!

Those other options, A B and D, are made up of quarks. This isn't the right answer, because you can have two elements with different amount of quarks because quarks make up neutrons and other subatomic particles.

Final answer:

Atoms of an element have the same number of protons, and those with different numbers of neutrons are called isotopes. The mass number (A) is the sum of protons and neutrons in the nucleus. (Option A)

Explanation:

Atoms of an element always have the same number of protons, which is characteristic of that particular element and is known as the atomic number (Z). Atoms that vary in the number of neutrons found within their nuclei are called isotopes. The overall charge of an atom is neutral because it has an equal number of protons and electrons.

Furthermore, the sum of the numbers of protons and neutrons is the mass number, notated as (A). For instance, the carbon atom, which has 6 protons and can have varying numbers of neutrons, is recognized in its standard form as having 6 neutrons, making its mass number (A = 12).

Answer:

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Answer: C. 121

Explanation:

took the test

The mole concept is used here to determine the grams of the silver metal. The mass of silver metal produced by the reaction of  250.0 grams of 76.0% by mass silver nitrate solution with an excess of copper metal is 121 grams. The correct option is C.

One mole of a substance is defined as that amount of it which contains as many particles or entities as there are atoms in exactly 12 g of carbon-12. One mole of any substance contains Avogadro number of molecules.

Number of moles (n) = Given mass / Molar mass

The equation for the reaction is;

Cu(s) + AgNO3 → Ag(s) + Cu(NO3)2

Mass of silver nitrate = 250.0 g × 0.76 = 190 g

Molar mass of silver nitrate =  169.87 g/mol

Moles of silver nitrate = 190 / 169.87 = 1.118 moles

Mole ratio of Silver nitrate to silver metal = 1 : 1

Therefore, moles of silver metal = 1.118 moles

So the mass of silver metal = 1.118 moles × 107.868 g/mol = 120.59 g ≈ 121 g

Thus the correct option is C.

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Answer:

Covalent Compound

Explanation:

Answer via Founder's Education/ Educere

P3F4 is a covalent compound , therefore option (c) is correct.

A covalent bond is a chemical bond in which pairs of electrons are shared between two atoms. The covalent bond is also called a molecular bond.

The forces of attraction or repulsion between two atoms, when they share electron pair or bonding pair, is called as Covalent Bonding.

Covalent bonding occurs between non-metal elements when pairs of electrons are shared by atoms.

Atoms will covalently bond with other atoms to attain the nearest noble gas electron configuration.

P3F4 is a covalent compound ,  hence option (c) is correct.

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Answer:

0.5 mol.

Explanation:

Given,

Pressure, P = 101.325 kPa = 1 atm

Temperature, T = 0 +273 = 273 K

Volume = 11.2 L

Now, using ideal gas equation

PV = n RT

1 x 11.2 = n x 0.08206 x 273

n = 0.5 mol.

Hence, number of moles of the hydrogen sample of gas at STP is 0.5 mol.

Final answer:

Earth's atmosphere contained little free oxygen until cyanobacteria’s photosynthesis began producing oxygen, which accumulated over time due to geological activities that limited oxygen's recombination with organic matter. The rise in oxygen levels led to the creation of the ozone layer, allowing life to thrive on land.

Explanation:

Initially, Earth's early atmosphere contained little to no free oxygen. This was because oxygen is a byproduct of photosynthesis, a process that was not prevalent until the evolution of photosynthetic organisms like cyanobacteria. Over time, as more plants appeared and photosynthesis increased, more oxygen was produced. However, the oxygen was quickly removed from the atmosphere through chemical reactions with the Earth's crust, preventing it from accumulating. This changed around 2.4 billion years ago, when geological activity increased and plants were buried before they could decompose fully, which decreased the removal of oxygen and allowed it to begin accumulating in the atmosphere.

The buildup of oxygen in the atmosphere had significant evolutionary consequences. The emergence of the ozone layer, comprised of three oxygen molecules (O3), protected life from the Sun's ultraviolet radiation, enabling the colonization of land. Thus, the oxygenation of the atmosphere facilitated the development of aerobic life and the complex biodiversity we have today.

Answer:

Explanation:

mass ratio of oxygen and nitrogen in air at Miami

= 21 : 79

ratio of their moles

= [tex]\frac{21}{32} : \frac{79}{28}[/tex]     ( mol weight of oxygen is 32 and of nitrogen is 28 )

=  .65625 : 2.8214

= 1 : 4.3

This ratio will also be maintained in the air of Denver though total pressure decreases there.

Partial pressure of oxygen in air at both the places

mole fraction of oxygen

= [tex]\frac{1}{( 1 +4.3)}[/tex]

= .18868

partial pressure of oxygen at Denver

= .18868 x .83 x 760

= 119 mm.

Denver's total air pressure is 630.8 mm Hg. The percentage of Oxygen in Denver remains the same as at sea level, which is 21%. The partial pressure of Oxygen in Denver is therefore 132.47 mm Hg.

The question is asking us to determine the percentage of oxygen and the partial pressure of oxygen in Denver given that Denver's atmospheric pressure is 83 percent of Miami Beach's pressure. First, let's calculate the total pressure in Denver. We multiply Miami Beach's total air pressure of 760 mm Hg by 0.83 (Denver's air pressure as a fraction of Miami Beach's) to get 630.8 mm Hg as Denver's total air pressure. Since the proportion of oxygen in the air doesn't change with altitude, the percentage of Oxygen remains 21%. Now, let's find the partial pressure of oxygen in Denver. Partial pressure is the pressure that a gas would have if it alone occupied the volume of the mixture. It would be the total pressure times the fraction of the gas in the mixture. So, for oxygen in Denver, the partial pressure would be 630.8 mm Hg * 0.21 (percentage of oxygen in the air) which gives us 132.47 mm Hg.

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Answer:

∇T = -32°C

Explanation:

T1 = 45°C

T2 = 13°C

∇T =?

∇T = change in temperature = final temperature - initial temperature

∇T = T2 - T1

∇T = 13 - 45

∇T = -32°C

The change in temperature is -32°C

Answer:

Protons are located in the nucleus and have a positive charge and a mass of 1.

Explanation:

Know about protons, neutrons, and electrons.

In a safety contract, important items to include are rules regarding the use of safety equipment, procedures for handling emergencies, and guidelines for reporting unsafe conditions.

When designing a safety contract, it's crucial to include items that promote health and safety. Three items that would be beneficial to include in a safety contract are: Rules regarding the use of safety equipment, Procedures for handling emergencies and Guidelines for reporting unsafe conditions.

Each of these provisions are essential components that strengthen the safety and well-being of all participants involved.

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Answer:

It might be B

Explanation:

because its HClO2

Option A. Oxygen is the vital element that participates in the carbon, nitrogen, and phosphorus cycles.

The vital element for life that participates in the carbon, nitrogen, and phosphorus cycles is oxygen. Oxygen is necessary for the breakdown of organic matter and the release of carbon, nitrogen, and phosphorus compounds back into the environment. In the carbon cycle, oxygen is involved in the process of cellular respiration and photosynthesis. In the nitrogen cycle, oxygen is necessary for the conversion of nitrogen gas into usable forms by bacteria. In the phosphorus cycle, oxygen is involved in the weathering of rocks and the release of phosphates.

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Answer:

Simply put, your balloon will pop before it can get to that point due to pressure.

Answer:

it would pop as soon as it was exposed to the vacuum of space. The pieces would then burn or freeze depending on how far you are from the nearest star

Answer:

C. In ionic bonds one atom accepts electrons from another atom to achieve a stable outer shell.

Explanation: Some Atoms have positive Charges. Like Na (Sodium) has a charge of +1 because its missing an electron, and there are Atoms with a negative charge like Chlorine, it has an extra electron so a charge of -1. The chlorine atom transfers the extra Electron to the sodium atom. they both gain a neutral Charge.

In ionic bonds, one atom accepts electrons from another atom to achieve a stable outer shell. Hence, option C is correct.

An ionic bond is formed by the complete transfer of some electrons from one atom to another.

Some Atoms have positive Charges. Like Na (Sodium) has a charge of +1 because it's missing an electron, and there are atoms with a negative charge like Chlorine, it has an extra electron so a charge of -1.

The chlorine atom transfers the extra electron to the sodium atom. they both gain a neutral Charge.

Hence, option C is correct.

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