Which of the following laws states that the volume of a gas and the amount of a gas in moles are directly proportional?

Answer:

Explanation:

The second one is quite simple. CH4 (methane) is the main component for natural gas. It is used to heat houses in many many areas. It it heats a house, it must give off heat. It is exothermic.

The first one is much less common and hard to reason. I think it is easier to see the reverse reaction

O2 ===> 2O

O2 is a fairly stable molecule. It takes energy to break the molecules apart. That makes this reaction endothermic.

So the reaction you are given is just the opposite. It must be exothermic.

2O ===> O2 must be exothermic.

Final answer:

Heating kaolinite clay results in the removal of hydroxyl groups as water in a process known as dehydroxylation, producing metakaolin and eventually aluminum oxide (Al2O3).

Explanation:

When kaolinite clay, which has the formula Al2(Si2O5)(OH)4, is heated to a high temperature, it undergoes a process known as dehydroxylation. This process involves the removal of hydroxyl groups as water, which is referred to as 'chemical water'.

When heated sufficiently, the kaolinite loses water molecules and forms metakaolin, an intermediate phase before it eventually transforms into aluminum oxide (Al2O3), also known as alumina. Alumina is important as it is a precursor for aluminum production through the electrolysis of aluminum ions in a solution containing cryolite (Na3AlF6) and calcium fluoride (CaF2).

Answer:

ye its b

Explanation:

Air resistance highly depends on the velocity of a moving object. It also depends on other factors like the object's shape, size, and the fluid's density. Among the given options, velocity is the most accurate answer.

Air resistance, often termed as drag in physics, is the force that opposes an object's motion through a fluid (either gas or liquid). The statement 'Air resistance depends upon _____.' pertains to the factors affecting the magnitude of air resistance that an object experiences. Most accurately, air resistance depends on the velocity of a moving object (Option B). This relationship is particularly evident in larger velocities, where the air resistance can increase exponentially.

Additionally, air resistance is also affected by factors such as the shape and size of the object, and the density of the fluid (air in this case). For example, a smoothly shaped, small object experiences less air resistance compared to a larger or irregularly shaped object at the same velocity.

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C. decreases by 2

The mass number decreases by 4, and the atomic number decreases by 2

Final answer:

The atomic number of a nuclide decreases by 2 during alpha decay due to the emission of an alpha particle, which consists of two protons and two neutrons.

Explanation:

The atomic number of a nuclide that undergoes alpha decay decreases by 2. Alpha decay is a nuclear reaction where an unstable atom emits an alpha particle, which consists of two protons and two neutrons (the same as a helium-4 nucleus). Because two protons are lost, the atomic number decreases by two.

At the same time, because a total of four nucleons (two protons and two neutrons) are lost, the mass number of the atom decreases by four.

Answer:

D. I < III < II

Explanation:

π = iMRT.

where, π is the osmotic pressure.

i is van 't Hoff factor.

M is the molarity of the solution.

R is the general gas constant.

T is the temperature.

M, R and T are constant for all solutions.

So, the osmotic pressure depends on the van 't Hoff factor.

For C₂H₆O₂ (non-electrolyte solute): i = 1.

For MgCl₂: i = 3.

It dissociates to give (Mg²⁺ + 2Cl⁻).

For NaCl: i = 2.

It dissociates to give (Na⁺ + Cl⁻).

So, the solute that has the highest osmotic pressure is  II. 0.15 M MgCl₂, then III. 0.15 M NaCl, then I. 0.15 M C₂H₆O₂.

D. I < III < II.

D. I < III < II

Given:

(I). 0.15 M C₂H₆O₂

(II) 0.15 M MgCl₂

(III) 0.15 M NaCl

Question:

Place the following solutions in order of increasing osmotic pressure assuming the complete dissociation of ionic compounds.

The Process:

The osmotic pressure of a nonelectrolyte solution is calculated as follows:

[tex]\boxed{ \ \pi = MRT \ }[/tex]

The osmotic pressure of an electrolyte solution is calculated as follows:

[tex]\boxed{ \ \pi = MRTi \ }[/tex]  

The van't Hoff factor is i = 1 + (n - 1)α, with  

In our problem, assuming the complete dissociation of ionic compounds results in α = 100% and i = n.

From the information above, each type of solution can be prepared as follows:

Now we compare the amount of osmotic pressure from each solution.

From the previous results, it can be observed that 0.15 M MgCl₂ delivers the most considerable osmotic pressure while 0.15 M C₂H₆O₂ has the smallest.

Thus, the rank of the solutions according to their respective osmotic pressures in increasing orders is 0.15 M C₂H₆O₂ < 0.15 M NaCl < 0.15 M MgCl₂.

- - - - - - - - - -

Notes:

Answer:

Na.

Explanation:

2Na + S → Na₂S.

Na is oxidized to Na⁺ in (Na₂S) (loses 1 electron). "reducing agent".

S is reduced to S²⁻ in (Na₂S) (gains 2 electrons). "oxidizing agent".

Answer:

Explanation:

The skeleton equation shows which reactants are being used and which products are being formed.

The reactants are shown on the left and the products are shown on the right side of the equations, separeted by an arrow.

For example, the skeleton equation to obtain water is:

From it you know that hydrogen and oxygen react to form water, yet you do not know in which ratio they do it.

Then, you balance the equation, adding the appropiate coefficients, to make the number of atoms of each kind on the reactant side equal to the number of the same kind of atoms on the product side.

This is, for the example of water, the number of hydrogen atoms on  the left must equal the number of atoms of hygrogen on the right side, and  the number of oxygen atoms of the left must equal the number of oxygen atoms on the right.

For the water example that is:

Atomic number 70

weight 173

number of neutron = weight - Atomic number

= 173 -70

=103

The optimal number of neutrons for a nucleus containing 70 protons is 130

In chemistry, the nucleus is the positively charged center of the atom that consist of protons and neutrons. It's also known as the "atomic nucleus"

The neutron is a subatomic particle with no net electric charge and a mass slightly greater than that of a proton. The neutron is have symbol n or n⁰. Protons and neutrons constitute the nuclei of atoms.

Neutron is a type of atomic particle which does not possess any kind of charge on it. It has neutral behavior toward atoms since it does not possess any kind of charges but it contributes to the mass of the atoms.

Atomic number = 70

Atomic weight = 173

Atomic weight = number of protons + number of neutrons

Atomic number = number of protons

Therefore, the number of protons = 70

Number of neutrons = atomic weight - number of protons

Number of neutrons = 173 - 70 = 103

Optimal number of neutrons = 130

Grade:  9

Subject:  chemistry

Chapter:  the optimal number of neutrons

Keywords: protons, nucleus, neutrons

Answer:

= 160 mL

Explanation:

The equation for the reaction is;

Ca(OH)2 + 2HNO3 -----> Ca(NO3)2 + 2H2O

Moles of Ca(OH)2 =  0.080 L x 5.00^-3 M

                              = 0.0004 moles

From the reaction; 2 moles of HNO3 reacts with 1 mole of Ca(OH)2

Thus; moles of HNO3 = 0.0004 Moles × 2

                                    = 0.0008 moles

Volume = moles/ molarity

Therefore; volume of HNO3= 0.0008 Moles/ 5 × 10^-3 M

                                              = 0.16 L or 160 mL

The volume of 5×10⁻³ M HNO₃ needed to titrate 80ml of 5×10⁻³ M ca(oh)2 to the equivalence point is 160mL.

Volume of any solution will be calculated by using moles and molarity as:

Volume = moles / molarity

Given chemical reaction is:

Ca(OH)₂ + 2HNO₃ → Ca(NO₃)₂ + 2H₂O

From the stoichiometry of the reaction it is clear that,

2 mole of HNO₃ = react with 1 mole of Ca(OH)₂

Given volume of Ca(OH)₂ = 80mL = 0.080L

Given molarity of Ca(OH)₂₂ = 5×10⁻³ M

Moles of Ca(OH)₂ = 0.080L x 5×10⁻³M = 0.0004 moles

0.0004 moles of Ca(OH)₂ = react with 2×0.0004 = 0.0008 moles of HNO₃

Given molarity of HNO₃ = 5×10⁻³ M

Volume of HNO₃ = 0.0008moles / 5×10⁻³ M = 0.16L = 160mL

Hence, 160mL of HNO₃ is required.

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Answer: 10 or less

Explanation: The reason it should be ten or less is because having to many people can make you feel uncomfortable. So you want to stick with a big group but not that big of a group.

Ten or less is a comfortable number of guests for an evening of good conversation.  

Usually people visit their neighbors or go as guest to their relative houses during evening time. It is because evening is the exact time during which all the members of the family will be present at home. Some people like to converse with each other.  

The best count for comfortable evening conversation may be ten or less. It is considered as best because; if a guest is visiting our house we need to provide hospitality to them by serving something to eat and to provide space to sit. If the count goes above 10, it will become crowded and will cause problem in hospitality and will not pave wave for good conversation.

Answer:

The excitation energy is always greater than the emission energy .

Explanation:

When a molecule absorbs energy, electrons are excited from the ground state (S₀) to different vibrational levels of the excited state (S₁) in about 1 fs.

In the next picosecond, most of them will drop to the lowest vibrational level of S₁.

They remain there for about 10 ns, and then they drop to different vibrational levels of S₀.

The excitation energy is always greater than the emission energy because excitation occurs from the ground state of S₀ to a higher vibrational level of S₁, while emission occurs from the lowest vibrational level of S₁ to a higher vibrational of S₀.

The excitation energy of fluorescence is greater than the emission energy.

Excitation has to do with absorption of energy by a ground state molecule in (S₀) moving it to a different vibrational levels  (S₁) which is higher in about 1 fs.

It the subsequently drops in one picosecond, most of them will drop to the lowest vibrational level of S₁.

Note that excitation energy must be greater than emission energy owing to the fact that excitation begins at the ground state moving up to a higher vibrational level , while emission begins at the lowest vibrational level moving up to a higher vibrational levels.

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Answer:

The right choice is:

B. 21, 21, 53.

Explanation:

Atomic Number = Number of electrons = Number of protons

So, the No. of protons (A) =  Number of electrons =21

Atomic Number (B) = Number  of electrons =21

Mass number (C) = Number of electrons + Number of neutrons = 21 + 32 = 53

So, the right choice is:

B. 21, 21, 53.

Answer:

Desertification mainly impacts land  resources.

Point and nonpoint sources refer to types of water pollution.

The process of people moving to cities, called   urbanization , greatly impacts land, air, and water resources.

The burning of fossil fuels can cause smog and acid rain.

Explanation:

Desertification impacts natural resources. Point and nonpoint sources refer to types of water pollution. Urbanization has significant impacts on land, air, and water resources. The burning of fossil fuels can cause environmental pollution.

Desertification mainly impacts natural resources. This process refers to the degradation of once fertile land into barren desert due to factors such as climate change, deforestation, and overgrazing. It can lead to the loss of agricultural productivity, water scarcity, and biodiversity decline.

Point and nonpoint sources refer to types of water pollution. Point sources are specific and identifiable sources of pollution, such as pipes discharging industrial waste into a river. Nonpoint sources are diffuse sources, such as runoff from agricultural fields, that enter water bodies indirectly.

The process of people moving to cities, called urbanization, greatly impacts land, air, and water resources. Urbanization often leads to the conversion of agricultural land into concrete jungles, increased air pollution from vehicles and industries, and increased water demand and waste generation.

The burning of fossil fuels can cause environmental pollution. When fossil fuels, such as coal, oil, and natural gas, are burned for energy production or transportation, they release pollutants like carbon dioxide, sulfur dioxide, and nitrogen oxides. These pollutants contribute to air pollution, climate change, and acid rain.

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Answer:

C

Explanation:

it only bonded with one other molecule carbon/ oxgen=carbon dioxide

b. CH3CH3(Ethane) is the only molecule in the following that has only single bonds.

Chemical bonds are defined as the connection between two atoms or the strong force of attraction that is binding the two atoms which are the result of sharing of electrons.

Hence option a. is the right option.

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The final temperature of a 68 gram sample of sodium initially at 42°C, after 1840 joules of heat energy are applied, can be calculated using the formula for specific heat capacity. The final temperature results in approximately 63.73°C.

Your question involves the concept of specific heat in physics. The specific heat of a substance is the energy required to change the temperature of 1 gram of the substance by 1 degree Celsius. For sodium, this is approximately 1.23 J/g°C.

Given a 68 g sample of sodium, the initial temperature of 42°C, and energy applied of 1840 J, we are looking to find the final temperature. We use the formula q = mcΔT, where q is the heat energy, m is the mass, c is the specific heat capacity, and ΔT is the change in temperature.

First, rearrange the formula to find ΔT: ΔT = q / (mc). Then, substitute the given values: ΔT = 1840 J / (68 g * 1.23 J/g°C) = approximately 21.73°C. To find the final temperature, add this change in temperature to the initial temperature: 42°C + 21.73°C = 63.73°C. Hence, the final temperature of the sodium, after 1840 joules of heat are applied, is approximately 63.73°C.

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The question involves using the specific heat capacity formula to calculate the final temperature of a sodium sample. By rearranging the formula and inserting the given values, we can calculate the final temperature.

The question involves the concept of specific heat capacity, which in physics, is the amount of heat required to change the temperature of a substance. In this case, we are dealing with sodium and we are given the initial temperature, the mass of the sample, and the amount of heat applied.

First, we need to know the specific heat capacity of sodium, which is different from water used in these examples. For sodium, the specific heat capacity is approximately 1.23 J/g°C. The relevant formula to use is q=mcΔT, where 'q' is heat energy, 'm' is mass, 'c' is specific heat capacity, and 'ΔT' is change in temperature (final-initial).

By rearranging the formula to solve for the final temperature, we obtain ΔT = q/(mc), and thus the final temperature is calculated as: final temperature = initial temperature + ΔT. Inserting the given values: ΔT = 1840 J / (68 g * 1.23 J/g°C), will give us the temperature rise, and by adding the initial temperature we can find the final temperature of the sodium.

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Answer:

Explanation:

Here are the ones I'm certain of.

10, Transfer of electrons occurs in NaCl. That's another way of saying that the bond is ionic.

12. What is a polar molecule. The two hydrogens are + and the Oxygen is minus.

9. Contains just one sigma bond. H2 is made up of only 1 bond type. I'd pick this, but It's not certain.

=============

The one I'm uncertain of is 11. I'd pick E but it is a pure guess. The only other  choice is CO2 but I don't think CO2 is that way. You'll have to enter the answers to find out which is which.

Answer

Light

Explanation:

The gamma emission is an electromagnetic radiation, this kind of radiation come from the light.  

In gamma ray emission, a gamma ray is photon of light. Given that light does not have mass or charge, the symbol we use to identify it is: 00γ. With two zeroes.

Answer:

electromagnetic radiation

Explanation:

Answer:

[tex]\boxed{\text{3; acidic}}[/tex]

Explanation:

[H⁺] = 1 x 10⁻³ mol/L

To get the pH, you take the negative logarithm of the hydrogen ion concentration.  

pH = -log[H⁺]

= -log(1 × 10⁻³)

= -log1 - log(10⁻³)

= 0 – (-3)

= 0 + 3

= 3

The pH is less than 7, so the solution is acidic.

According to pH values, the value below 7 indicates acidity. As per the given concentration of hydrogen ion, the pH value is 3 which means it is acidic.

pH is the value to determine whether the solution is acidic or basic.

It can be calculated as

[tex]pH= -log[H^{+} ][/tex]

Given,

[H⁺] = 1 x 10⁻³ mol/L

[H⁺]= -log(1 × 10⁻³)

[H⁺]= -log1 - log(10⁻³)

[H⁺]= 0 – (-3)

[H⁺]= 0 + 3

[H⁺]= 3

Thus, it can be concluded that the pH value here is 3, it means it is acidic.

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I think it is not a valid experiment . I go with D

The experiment to determine acceleration due to gravity has potential flaws due to short drop distance and potential inconsistencies with timing due to human reaction times. A more accurate experiment would require a longer drop distance and more consistent timing method.

The experiment described for determining the acceleration due to gravity isn't completely invalid but it is overly simplified and prone to errors. Option D is the most accurate answer - the short drop distance and potential inconsistency with the start and stop times due to human reaction could induce significant errors into the measurements. A more precise experiment would include a longer drop distance, a more consistent timing method (for example, using sensor-based stopwatch triggers), and repeated tests with different objects to make sure the results are not specific to just the pencil.

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A titration is a precision technique utilized in chemistry to identify the concentration of an unknown solution by neutralizing it with a reactant of known concentration, using an indicator or pH meter to detect the endpoint.

A titration is a quantitative chemical analysis method used to determine the concentration of an unknown solution. During a titration, a reactant solution of known concentration is added to a sample containing the analyte. The volume required to completely neutralize the analyte is measured, indicating the endpoint of the titration.

In the case of an acid-base reaction, when the weak acid HA reacts with the strong base OH⁻, the products formed are A− and water (H₂O).

An indicator or pH meter is employed to detect the point at which equivalent amounts of acid and base have reacted, signifying that the reaction has reached neutrality. This stoichiometric point allows the concentration of the second reactant to be calculated.

A. Reactant side: K(+1), Br2(0); Product side: K(+1), Br(-1). B. Potassium is oxidized, and bromine is reduced. C. Bromine is the oxidizing agent in this reaction.

A. Let's analyze the oxidation numbers for each element in the given equation:

On the reactant side:

- Potassium (K) has an oxidation number of 0.

- Bromine (Br2) is a diatomic molecule, and its oxidation number is 0.

On the product side:

- Potassium bromide (KBr) has potassium with an oxidation number of +1, and bromine with an oxidation number of -1.

B. To determine which element is oxidized and which is reduced, compare the oxidation numbers:

- Potassium goes from an oxidation number of 0 to +1, indicating that it loses electrons and is oxidized.

- Bromine goes from an oxidation number of 0 to -1, indicating that it gains electrons and is reduced.

C. The oxidizing agent is the substance that causes another substance to be oxidized. In this reaction, bromine is the oxidizing agent because it causes potassium to lose electrons (undergo oxidation).

Final answer:

In the reaction 2K + Br2 → 2KBr, K is oxidized from an oxidation number of 0 to +1 and Br2 is reduced from 0 to -1. Br2 is the oxidizing agent as it gains electrons; K is the reducing agent as it loses electrons.

Explanation:

To answer the question about the chemical reaction 2K + Br2 → 2KBr:

Assigning oxidation numbers: Potassium (K) has an oxidation number of 0 as a pure element, and Bromine (Br2) also has an oxidation number of 0 as a diatomic molecule. In the product, potassium bromide (KBr), K has an oxidation number of +1 and Br has an oxidation number of -1.

Identifying what is oxidized and what is reduced: Potassium (K) is oxidized because its oxidation number increases from 0 to +1. Bromine (Br2) is reduced because its oxidation number decreases from 0 to -1.

Determining the oxidizing agent and reducing agent: The oxidizing agent is Bromine (Br2), because it gains electrons and is reduced to Br- ions. The reducing agent is Potassium (K), as it loses electrons and is oxidized to K+ ions.

Answer:

The correct option is GRADUATED CYLINDER.

Explanation:

Each of the glassware used in the laboratory has its specific functions. The graduated cylinder is especially manufacture to facilitate the measurement of accurate volume of liquids in the laboratory. Measurements obtained by means of graduated cylinder can be considered to be moderately accurate; volumentric flasks are more accurate than graduated cylinder and should be used when higher precision are required.

The most accurate piece of glassware to measure the volume of a liquid is a graduated cylinder, due to its precise measurement markings. Other forms of glassware like test tubes, beakers, and flasks can also measure volume, but with less accuracy.

The piece of glassware used to measure the volume of a liquid with the greatest accuracy among the given options is a graduated cylinder. Test tubes, beakers, and flasks provide approximate measurements, but for higher accuracy, a graduated cylinder is used. This is due to the precise measurements inscribed on the surface of the cylinder. Graduated cylinders are typically used in scientific experiments where accuracy is crucial for obtaining reliable and valid results.

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A simple hypothesis is a prediction of the relationship between two variables: the independent variable and the dependent variable.

Drinking sugary drinks daily leads to obesity.

A complex hypothesis examines the relationship between two or more independent variables and two or more dependent variables.

Overweight adults who 1) value longevity and 2) seek happiness are more likely than other adults to 1) lose their excess weight and 2) feel a more regular sense of joy.

A null hypothesis (H0) exists when a researcher believes there is no relationship between the two variables, or there is a lack of information to state a scientific hypothesis. This is something to attempt to disprove or discredit.

There is no significant change in my health during the times when I drink green tea only or root beer only.

This is where the alternative hypothesis (H1) enters the scene. In an attempt to disprove a null hypothesis, researchers will seek to discover an alternative hypothesis.

My health improves during the times when I drink green tea only, as opposed to root beer only.

A logical hypothesis is a proposed explanation possessing limited evidence. Generally, you want to turn a logical hypothesis into an empirical hypothesis, putting your theories or postulations to the test.

Cacti experience more successful growth rates than tulips on Mars. (Until we're able to test plant growth in Mars' ground for an extended period of time, the evidence for this claim will be limited and the hypothesis will only remain logical.)

An empirical hypothesis, or working hypothesis, comes to life when a theory is being put to the test, using observation and experiment. It's no longer just an idea or notion. It's actually going through some trial and error, and perhaps changing around those independent variables.

Roses watered with liquid Vitamin B grow faster than roses watered with liquid Vitamin E. (Here, trial and error is leading to a series of findings.)

A statistical hypothesis is an examination of a portion of a population.

If you wanted to conduct a study on the life expectancy of Savannians, you would want to examine every single resident of Savannah. This is not practical. Therefore, you would conduct your research using a statistical hypothesis, or a sample of the Savannian population.

Final answer:

Turning an observation into a hypothesis involves observing a natural event, formulating a plausible explanation, testing this explanation by manipulating an independent variable, predicting the outcome on a dependent variable, and stating a hypothesis that brings all these elements together.

Explanation:

Turning an observation into a hypothesis involves several critical steps, each building upon the previous to develop a testable prediction about a natural phenomenon. Below is an example detailing this process.

Observation: Plants in a garden receiving more sunlight tend to be more vibrant and grow taller than those in shaded areas.

Explanation: Sunlight may provide energy that is essential for the growth and health of plants.

Test (Independent Variable): The amount of sunlight exposure plants receive.

Prediction (Dependent Variable): The health and growth rate of the plants.

Hypothesis: If plants are exposed to more sunlight, then they will grow taller and have a more vibrant appearance, because sunlight provides the necessary energy for photosynthesis.

This hypothesis can then be tested through experimentation, ultimately contributing to the cycle of scientific inquiry.

The molar concentration of [H3O+] in a cola with a pH of 3.120 is approximately 7.92 x 10^(-4) M.

The molar concentration of [H3O+] in a cola with a pH of 3.120 can be determined using the equation:

pH = -log[H3O+]

First, we need to convert the pH to a hydronium ion concentration. Using the given pH of 3.120, we can rearrange the equation and solve for [H3O+]:

[H3O+] = 10^(-pH)

Plugging in the pH value, we get:

[H3O+] = 10^(-3.120)

Calculating this, we find that the molar concentration of [H3O+] in the cola is approximately 7.92 x 10^(-4) M.

Answer:

A.sugar + oxygen → carbon dioxide water + atp

Explanation:

Cellular respiration is a biological process whereby glucose (sugar) and oxygen are used to produce ATP (energy), with carbon dioxide and water as byproducts. This process consists of three main stages, Glycolysis, Krebs Cycle, and Electron Transport Chain. Thus, option A: 'sugar + oxygen → carbon dioxide + water + ATP' accurately represents cellular respiration.

In the realm of biology, the reaction that best represents cellular respiration is option A: sugar + oxygen → carbon dioxide + water + ATP. This is because, in the process of cellular respiration, glucose (sugar) and oxygen are utilized to generate energy in the form of ATP (Adenosine Triphosphate), while releasing carbon dioxide and water as byproducts.

Cellular respiration consists of three main stages: Glycolysis, Krebs Cycle (Citric Acid Cycle), and Electron Transport Chain. During these stages, energy is extracted from glucose and used to form ATP. Oxygen acts as the final electron acceptor in the process, ultimately leading to the formation of water.

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It’s CO2

Carbon dioxide

apply Boyle's law

Boyle's Law, an ideal gas law which states that the volume of an ideal gas is inversely proportional to its absolute pressure at a constant temperature

V = 1/P

PV = 1

PV= constant

let 15L = V1 and 125kPa = P1

9L =V2 and P2 = ?

Now from Boyle's law

P1V1 = P2V2

Substitute the values

15L * 125kPa = 29 * P2

P2 = 64.65kPa

convert Pascal's into atm

1 pascal =

9.869 × 10-6 atmosphere

P2 = 64.65 *10^3 *9.869 × 10-6 (kPa is kilo Pascal's)

Answer:

Ne

Explanation:

Answer: The correct answer is Beryllium.

Explanation:

Ionization energy is defined as the energy required to remove valence electron from an isolated gaseous atom. It is expressed as [tex]E_i[/tex]

[tex]X(g)\rightarrow X^{n+}(g)+ne^-[/tex]

Energy required for a stable molecule (having fully filled and half filled electronic configuration)

The electronic configuration for the elements given are:

1. Be : [tex]1s^22s^2[/tex]

This element will have the highest ionization energy because this element has stable electronic configuration and electrons present in '2s' orbital is near to the nucleus. So, to remove this electron, we need a huge amount of energy.

2. B : [tex]1s^22s^22p^1[/tex]

This element does not have stable electronic configuration. So, this will not have highest ionization energy.

3. Ne : [tex]1s^22s^22p^6[/tex]

As, this element has stable electronic configuration but the valence electron is far from the nucleus and does not require a huge amount of energy to remove it. So, this will not have highest ionization energy.

4. O : [tex]1s^22s^22p^4[/tex]

This element does not have stable electronic configuration. So, this will not have highest ionization energy.

From the above information, we can conclude that the Beryllium has the highest ionization energy.

Answer:

AgNO₃₍aq₎₎ + NaCl ₍aq₎₎ --------> NaNO₃₍aq₎ + AgCl₍s₎

Explanation:

Silver Nitrate: AgNO₃

Sodium Chloride: NaCl

Sodium Nitrate: NaNo₃

silver(I) chloride: AgCl

Equation:

AgNO₃₍aq₎₎ + NaCl ₍aq₎₎ --------> NaNO₃₍aq₎ + AgCl₍s₎

Answer:

this

Explanation:

a prefix meaning “with,” “together,” “in association,” and (with intensive force) “completely,” occurring in loanwords from Latin ( commit ): used in the formation of compound words before b, p, m: combine; compare; commingle.

In chemistry, the 'cis-' prefix indicates that two substituents are positioned on the same side of a double bond or ring structure, significantly impacting the compound's properties, as seen with cis-platin in cancer treatment.

In chemistry, the prefix cis- refers to molecules where two substituents are on the same side of a double bond or a ring structure. Cis/trans isomerism is an important concept where the arrangement of atoms can greatly affect the physical and biological properties of a compound. For instance, in cycloalkanes, a cis configuration has both groups oriented in the same direction, which is different from the trans configuration where groups are on opposite sides. An example of this significance in biology is the drug cis-platin, which is used in the treatment of ovarian and testicular cancers due to its ability to bind to DNA and inhibit replication.

Additionally, cis/trans isomerism can also be referred to as Z/E isomerism based on Cahn, Ingold, and Prelog's priority rules. While both cis and trans compounds share similar qualities, their different spatial arrangements result in distinct characteristics.