Choose one property of water that makes it unique describe the property and explain the chemical or physical reasons that causes water to have to property.

To make a buffer using a strong base, dissolve it in water, then add a weak acid, reacting some of the base to form the conjugate base. This weak acid-conjugate base pair provides the buffering action, resisting significant pH changes when small amounts of strong acid or base are added.

To create a buffer solution using a strong base and another reagent, we can follow a straightforward process. A common and illustrative example is using sodium hydroxide (NaOH), a strong base, and a weak acid such as acetic acid (CH3CO2H). First, we prepare a solution of the strong base by dissolving it in water. Then we add the weak acid to the solution. The weak acid will react with some of the hydroxide ions (OH-) from the strong base to form water (H2O) and the weak acid's conjugate base. In this case, sodium acetate (CH3CO2Na) is produced in the reaction:

CH3CO2H(aq) + OH-(aq)
ightarrow H2O(l) + CH3CO2-(aq)

When a strong acid like hydrochloric acid (HCl) is added to this buffer solution, it will react with the acetate anion to form more acetic acid, rather than causing a significant change in pH:

HCl(aq) + CH3CO2-(aq)
ightarrow H2O(l) + CH3CO2H(aq)

Finally, adding more strong base such as NaOH will cause the reverse reaction where the OH- ions are used up to create water and the acetate ion:

NaOH(aq) + CH3CO2H(aq)
ightarrow H2O(l) + CH3CO2Na(aq)

It is the presence of both a weak acid and its conjugate base that allows the buffer to maintain a relatively constant pH when small quantities of strong acids or bases are added. The creation of the conjugate base from the strong base and weak acid reaction is crucial for creating a functioning buffer solution.

If your in Connections Academy these would be the atoms and elements unit test:

1) c.

2) a.

3) b.

4) d.

5) a.

6) c.

7) a.

8) b.

9) b.

10) d.

11) d.

12) c.

13) c.

14) c.

15) a.

16) d.

17) c.

18) c.

19) c.

20) d.

21) c.

22) d.

23) 6 protons, 6 electrons and 7 neutrons

The rest your on your own. Hope this helps ;)

The postulate of the theory that has been a tenet and revised has been the consideration of the atom to the invisible particle. Thus, option A is correct.

Dalton's atomic theory has been the accepted theory and has been used for the determination of the structure of the atom. According to Dalton's theory, the atoms have consisted of the positively charged nucleus with the negative charge electrons revolving around it.

Dalton's theory conclude the atom to be a tiny particle, that can neither be created nor destroyed. The same element has been consisted of the same atoms.

The postulate of the theory that has been a tenet and revised has been the consideration of the atom to the invisible particle. Thus, option A is correct.

For more information about Dalton's atomic theory, refer to the link:

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The National Weather Service uses satellite technology to monitor hurricanes and issues alerts to the public through various communications channels. The potential impact of global warming on severe weather includes more intense and frequent storms. Advanced technology and computing are key to predicting hurricanes and ensuring public safety.

Monitoring and Informing about Hurricanes

The National Weather Service (NWS) monitors approaching hurricanes primarily through satellites equipped with various instruments. These satellites allow meteorologists to see hurricanes form and track their movement from the oceans toward the coast. Forecasters at the NWS and the National Hurricane Center (NHC), a division of NOAA, analyze these storm patterns and issue early warnings to inform the public.

Public Alerts and Safety Measures

When conditions indicate the development of a hurricane, the public receives alerts through various channels such as mobile phones, TV, and radio. These alerts may start as watches indicating favorable conditions for a hurricane to form, and escalate to warnings when a hurricane is imminent, advising people to prepare or evacuate if necessary.

Impact of Global Warming on Severe Weather

Global warming has the potential to increase the severity and frequency of extreme weather events, including hurricanes. As the planet's atmosphere warms, it can hold more moisture, leading to more intense rainfall and stronger storms. Understanding the nuanced connections between climate change, severe weather, and societal vulnerability is crucial for accurate forecasting and preparedness.

Technology in Hurricane Forecasting

Advanced technology and computing play significant roles in weather forecasting. Meteorologists use computer models, weather maps, and sophisticated algorithms to predict weather patterns. This technology helps in creating accurate and timely forecasts, which are essential for public safety.

Answer: Option (C) is the correct answer.

Explanation:

A chemical change is a change which brings change in chemical composition of a substance or reactant(s).

Thus, we can say the due to change in composition we get a new product.

For example, [tex]Na + Cl \rightarrow NaCl[/tex]

That is, NaCl is the new product formed.

Hence, we can conclude that common to all chemical changes is that a new substance is produced.  

Answer:new substance produced

Explanation:

Answer: The correct answer is Option D.

Explanation:

The general representation of an atom is given by: [tex]_Z^A\textrm{X}[/tex], where,

A = Mass number of the element

Z = Atomic number of the element

X = Symbol of the element

Atomic number is defined as the number of electrons or protons present in an atom.

Atomic number = Number of protons = Number of electrons

Mass number is defined as the sum of number of protons and number of neutrons in an element.

Mass Number = Number of protons + number of neutrons

From the given options:

Z = 34 = Number of protons

A = 79 = Number of neutrons + number of protons

Number of neutrons = 79 - 34 = 45

Z = 35 = Number of protons

A = 80 = Number of neutrons + number of protons

Number of neutrons = 80 - 35 = 45

Z = 32 = Number of protons

A = 73 = Number of neutrons + number of protons

Number of neutrons = 73 - 32 = 41

Z = 36 = Number of protons

A = 84 = Number of neutrons + number of protons

Number of neutrons = 84 - 36 = 48

From the above information, it is visible that Krypton has most neutrons.

Hence, the correct answer is Option D.

The answer is solution cap a.. n....s

Answer:

number of moles = 0.08175 moles

Explanation:

To solve this question, we will use the ideal gas law:

PV = nRT

where:

P is the pressure = 1 atm

V is the volume of the gas = 2 liters

n is the number of moles we want to find

R is the general gas constant = 0.0821 L-atm/mol-K

T is the temperature = 25°C = 25 + 273 = 298°K

Now, substitute with the givens in the equation to get n as follows:

PV = nRT

1 * 2 = n * 0.0821* 298

n = [tex] \frac{1*2}{0.0821 * 298} = 0.08175 [/tex] moles

Hope this helps :)

[tex]\boxed{{\text{0}}{\text{.06 mol}}}[/tex]  of nitrogen are contained in a 2 L cola bottle at atmospheric pressure and room temperature.

Further Explanation:

An ideal gas contains a large number of randomly moving particles that are supposed to have perfectly elastic collisions among themselves. It is just a theoretical concept, and practically no such gas exists. But gases tend to behave almost ideally at a higher temperature and lower pressure.

Ideal gas law is considered as the equation of state for any hypothetical gas. The expression for the ideal gas equation is as follows:

[tex]{\text{PV}} = {\text{nRT}}[/tex]                        ......(1)

Here, P is the pressure of nitrogen.

V is the volume of nitrogen.

T is the absolute temperature of nitrogen.

n is the number of moles of nitrogen.

R is the universal gas constant.

Rearrange equation (1) to calculate the number of moles of nitrogen.

[tex]{\text{n}} = \frac{{{\text{PV}}}}{{{\text{RT}}}}[/tex]            ......(2)

Firstly, the temperature is to be converted into K. The conversion factor for this is,

[tex]{\text{0 }}^\circ {\text{C}} = {\text{273 K}}[/tex]

So the temperature of nitrogen is calculated as follows:

[tex]\begin{aligned}{\text{Temperature}}\left( {\text{K}}\right)&=\left( {25 + 273} \right)\;{\text{K}}\\&=298\;{\text{K}}\\\end{aligned}[/tex]

The pressure of nitrogen is 1 atm.

The volume of nitrogen is 2 L.

The temperature of nitrogen is 298 K.

Universal gas constant is 0.0821 L atm/K mol.

Substitute these values in equation (2).

[tex]\begin{aligned}{\text{n}}&=\frac{{\left({{\text{1 atm}}}\right)\left({{\text{2 L}}}\right)}}{{\left({{\text{0}}{\text{.0821 L atm/K mol}}}\right)\left({{\text{298 K}}} \right)}}\\&={\text{0}}{\text{.0817 mol}}\\&\approx {\text{0}}{\text{.08 mol}}\\\end{aligned}[/tex]

As we know, air contains 78 % of nitrogen. So the moles of nitrogen are calculated as follows:

[tex]\begin{aligned}{\text{Number of moles of }}{{\text{N}}_2} &=\left({{\text{0}}{\text{.08 mol}}}\right)\left({\frac{{{\text{78}}\;{\text{\% }}}}{{{\text{100}}\,{\text{\% }}}}}\right)\\&={\text{0}}{\text{.0624 mol}}\\&\approx {\mathbf{0}}{\mathbf{.06 mol}}\\\end{aligned}[/tex]

Learn more:

1. Which statement is true for Boyle’s law: https://brainly.com/question/1158880

2. Calculation of volume of gas: https://brainly.com/question/3636135

Answer details:

Grade: Senior School

Subject: Chemistry

Chapter: Ideal gas equation

Keywords: ideal gas, pressure, volume, absolute temperature, equation of state, hypothetical, universal gas constant, moles of gas, initial, final, moles of nitrogen, 0.08 mol, 0.06 mol, 298 K, 273 K, P, V, n, R, T, room temperature, atmospheric pressure.

In angular unconformity, the older, eroded surface is tilted or folded.

Answer:

In angular unconformity, the older, eroded surface is tilted or folded.

Explanation:

The guy is correct if you are using Odyssey ware. I know 100% sure, because I got It correct so thank you. Please give me brainiest. No peer pressure.

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Answer:

A. When the forces are weaker, a substance will have higher volatility.

Explanation:

edge 2020

The statement is false as gas particles are separated by large distances, move randomly, have no definite shape or volume, and can expand to fill their container.

The statement is FALSE. In the gas state, the particles are not packed closely together; rather, they are separated by large distances compared to their sizes. Gas particles have enough energy to overcome intermolecular interactions, allowing them to move about randomly and occupy all the accessible volume within a container. These particles are in constant motion, colliding elastically with each other and the walls of the container, and this motion becomes more rapid as the temperature increases. Gases have no definite shape or volume, and thus expand to fill the container they are in, contrasting the behavior of solids and liquids, where particles are more closely packed together.

The correct statement is that best describes the relationship between volume of gas and mole is [tex]\boxed{{\text{The volume of gas is directly proportional to amount (moles)of gas }}}[/tex].

Further explanation:

Ideal gas:

An ideal gas contains a large number of randomly moving particles that are supposed to have perfectly elastic collisions among themselves. It is just a theoretical concept, and practically no such gas exists. But gases tend to behave almost ideally at a higher temperature and lower pressure.

The expression for the ideal gas equation of gas is as follows:

[tex]{\text{PV}}={\text{nRT}}[/tex]                                           ...... (1)

Here,

P is the pressure of the gas.

V is the volume of gas.

n denotes the number of moles of gas.

R is the gas constant.

T is the temperature of gas.

Rearrange equation (1) for V and we get,

[tex]{\text{V}}=\dfrac{{{\text{nRT}}}}{{\text{P}}}[/tex]                  ...... (2)

When the pressure (P) and temperature (T) of gas are constant and gas constant is also a consant. So the equation (2) can be modified so that all the constant can be replaced by K.

Substitute K for [tex]\dfrac{{{\text{RT}}}}{{\text{P}}}[/tex] in equation (2) and we get,  

[tex]{\text{V}}={\text{nK}}[/tex]                                                   ...... (3)

As K is constant in equation (3) it can also be written as:

[tex]{\text{V}}\propto{\text{n}}[/tex]                                          ...... (4)

According to equation (4), volume of gas is directly proportional to number of moles of gas at constant temperature and pressure.

Avogadro’s law:

Avogadro’s law is an experimental gas law that relates the volume of gas and number of moles of gas. It states that volume of an ideal gas is directly proportional to number of moles of an ideal gas at constant temperature and pressure.

The given plot also shows that volume of gas and number of moles at constant temperature and pressure is straight line. Therefore volume of gas increases with increase in number of moles of gas.

Hence, the correct statement is the volume of gas is directly proportional to amount (moles) of gas.

Learn more:

1. How many moles of nitrogen are present: https://brainly.com/question/2385746.

2.Calculate number of moles of Cl atom: https://brainly.com/question/1537871.

Answer details:

Grade: Senior School

Subject: Chemistry

Chapter: Ideal gas equation

Keywords: ideal gas, pressure, volume, absolute temperature, equation of state, hypothetical, universal gas constant, moles of gas, initial, final, P, R, T, V, n.

The weighted average atomic mass of copper is calculated using the abundances and atomic masses of its two isotopes, resulting in a value of 63.54 u to four significant figures.

To calculate the weighted average atomic mass of copper based on the given information about its isotopes, you would use the percentage abundances and atomic masses:

Weighted Average = (Fraction of Isotope 1 × Atomic Mass of Isotope 1) + (Fraction of Isotope 2 × Atomic Mass of Isotope 2)

For Copper-63:

For Copper-65:

Converting the percentages to decimal form:

The calculation would be:

(0.6917 × 62.94 u) + (0.3083 × 64.93 u) = 43.525698 u + 20.014779 u = 63.540477 u

Therefore, the weighted average atomic mass of copper to four significant figures is 63.54 u.

Final answer:

Distilled water is neutral because it dissociates into equal numbers of hydronium ions and hydroxide ions, balancing its acidic and basic properties, resulting in a pH of 7.

Explanation:

Distilled water is considered to be neutral. This neutrality comes from the fact that in distilled water, a very small fraction of water molecules naturally dissociate into equal numbers of hydronium ions (H3O+) and hydroxide ions (OH−), creating an equal balance between acidic and basic properties. According to the Brønsted-Lowry definition, a substance that can donate a proton (as water does when forming H3O+) is an acid, and a substance that can accept a proton (as water does when forming OH−) is a base. Since water can do both, it acts as both an acid and a base, depending on the context. However, with no solutes to alter this balance, distilled water remains neutral with a pH of 7, meaning it is neither acidic nor basic.

Metals are good conductors of heat and electricity because of the presence of free-moving electrons in their structures. The correct answer is option D.

A metal is a material that is typically hard, shiny, malleable, ductile, and a good conductor of both heat and electricity.

These electrons are not bound to any particular atom, but instead are shared among all the atoms in the metal. When heat or an electrical charge is applied to a metal, these free electrons are able to move freely throughout the metal, carrying the energy with them.

Therefore, option D. "free moving electrons in metals carry both heat and electric current." is the correct answer.

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The given question is not in a correct manner. The complete question is:

Why are metals good conductors of heat and electricity?

A.) anions rotate around the stationary electrons

B.) cations rotate around the stationary electrons

C.) free moving atoms in metals carry both heat and electric current

D.) free moving electrons in metals carry both heat and electric current

E.) free moving protons in metals carry both heat and electric current.

The combined mass of oxygen and mercury obtained from the thermal decomposition of 20g of mercury(II) oxide would also be 20g. The exact division between oxygen and mercury would depend on the stoichiometry of the reaction.

The subject here is the thermal decomposition of mercury(II) oxide (HgO). When this compound is heated, it decomposes into mercury and oxygen. The mass principle in chemistry, also known as the Conservation of Mass, states that the combined mass of the products (oxygen and mercury in this case) should be equal to the mass of the reactant (mercury oxide). Therefore, if you heat 20g of mercury(II) oxide, you would obtain a combined mass of 20g of oxygen and mercury. The exact mass of oxygen and mercury would depend on the atomic mass and stoichiometry of the decomposition reaction. For example, if the reaction were 2HgO --> 2Hg + O2, you would get twice as much mercury mass as oxygen, due to the nature of the balanced equation.

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Radical chlorination of pentane and neopentane results in different yields of the desired products due to the selectivity of the reaction. With neopentane, the reaction is very selective, producing a higher yield of neopentyl chloride, while with pentane, the reaction isn't selective, leading to various isomers and a lower yield of 1-chloropentane.

Radical chlorination of pentane isn't an efficient method to prepare 1-chloropentane because it doesn't give a high yield of the desired product. This is due to it being a non-selective process, leading to the formation of several isomeric products. In the case of pentane, several different hydrogens can be replaced creating many possible isomers of chloropentane.

On the other hand, radical chlorination of neopentane or (CH3)4C is a good way to prepare neopentyl chloride or (CH3)3CCH2Cl. This is because neopentane has a far greater proportion of equivalent tertiary hydrogens. When chlorination occurs, it's most likely to happen at these sites, producing a higher yield of the desired neopentyl chloride product with less chance of isomer formation.

This difference is due to the selectivity and specificity of the radical chlorination reaction on neopentane versus pentane. Radical chlorination is not very selective with pentane but is quite selective with neopentane due to the type of hydrogens present, thus making it a more ideal reaction.

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Answer:

heavier than helium

Explanation:

In a fusion reaction between carbon and another element, a different element is formed, releasing neutrons. The reaction is exothermic and results in the formation of a helium nucleus and a neutron.

In the process of nuclear fusion, two nuclei are combined to form a larger nucleus. In this case, the fusion reaction is between carbon and another element, likely a heavier isotope of hydrogen. This process would yield a different element, largely determined by the specific fusion reactions taking place. For example, if carbon fuses with a deuteron (an isotope of hydrogen), the resulting element could be oxygen, neon, or magnesium depending on the exact conditions of the reaction. Furthermore, the reaction is exothermic, meaning some energy is released in the form of gamma radiation and other particles, with neutrons highlighted in this specific context.

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The heat required to melt the ice cube is calculated using the heat of fusion and the ice's mass. This heat is then used to calculate how much it lowers the temperature of the coffee using the formula for heat transfer. The result is an estimated final coffee temperature of 84.0 degrees Celsius.

Let's start by calculating the amount of heat (q) necessary to melt the ice. The formula to calculate the heat required to convert ice to water is q= m * Lf where m is the mass of the ice and Lf represents the heat of fusion for the ice, which is 6.0 kJ/mol. Given that the molar mass of water is ~18g/mol, we can calculate the number of moles of ice in the cube as 9.0g / 18 g/mol = 0.5 mol. Therefore, the heat required to melt the ice is q=0.5 mol * 6.0 kJ/mol = 3.0 kJ.

Next, we calculate how much this heat will lower the temperature of the coffee. The formula q = m * c * ΔT can be rearranged to solve for ΔT (the change in temperature) as ΔT = q / (m * c). Assuming the specific heat capacity (c) of coffee is the same as water (4.18 kJ/kg*K), the mass of the coffee is 120g = 0.12 kg, and plugging in the heat from the previous step, we get ΔT = 3.0 kJ / (0.12 kg * 4.18 kJ/kg*K) = 6.0 K. Therefore, the final temperature of the coffee after the ice has melted will be 90.0 degrees Celsius - 6.0 degrees Celsius = 84.0 degrees Celsius.

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