The specific heat of copper is 0.385 J/g °C. How much thermal energy is required to increase the temperature of a 20g sample of copper from 20°C to 50°C? a. 154 J
b. 385 J c. 308 J
d. 231 J

True. When diluting a strong acid, the acid should always be added slowly to the water with constant stirring, rather than adding water to the acid.

This is to prevent a sudden release of heat, which can cause the solution to boil or splash out of the container, potentially causing injury.When diluting a strong acid, it is important to add the acid to the water and not the other way around. This is because the process of dilution generates heat, and adding water to the acid can cause a rapid buildup of heat, potentially leading to boiling and splattering of the acid. By adding the acid to the water, the heat is more evenly distributed and the risk of splattering is reduced.
In addition, when adding an acid to water, the acid is gradually diluted, reducing the likelihood of a sudden and dangerous increase in the concentration of the acid. This is important to ensure the safety of those handling the acid.

Overall, the process of diluting a strong acid with water should be done with caution and care to ensure the safety of those involved.

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This atomic mass corresponds to the metal iron (Fe). Therefore, the metal in the MO compound is iron (Fe).

The given chemical formula of the metal oxide is MO, where M represents the metal cation. When the sample of MO is heated in an atmosphere of hydrogen, the oxygen from the metal oxide reacts with hydrogen to form water vapor. The balanced chemical equation for this reaction can be written as:

MO + H2 → H2O + M  

Here, one mole of MO reacts with one mole of H2 to produce one mole of water vapor and one mole of metal M. Using the molar mass of MO, which is the sum of the atomic masses of M and O, we can calculate the number of moles of MO present in the given sample:

Molar mass of MO = atomic mass of M + atomic mass of O

= M + 16

Mass of MO = 39.46 g

Number of moles of MO = mass of MO / molar mass of MO

= 39.46 g / (M + 16)

Now, according to the problem, all the oxygen in MO is removed, leaving behind 31.70 g of M. From the balanced chemical equation, we know that the mass of M produced is equal to the initial mass of MO minus the mass of water vapor produced. The molar mass of water is 18 g/mol, so the number of moles of water produced is:

Number of moles of H2O = mass of H2O / molar mass of H2O

= mass of oxygen removed / 16

= (39.46 g - 31.70 g) / 18

= 0.43 mol

Therefore, the number of moles of M produced is also 0.43 mol. We can use this value and the number of moles of MO calculated earlier to write an equation that relates the atomic mass of M to the number of moles of M:

0.43 mol = 39.46 g / (M + 16)

Solving for M gives us:

M = 55.85 g/mol

This atomic mass corresponds to the metal iron (Fe). Therefore, the metal in the MO compound is iron (Fe).

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Option A: It is the amount of energy stored in the intermolecular attractions that hold particles together in an ionic solid, and option C: it is the amount of enthalpy change that occurs when 1mol of ionic solid is converted into gaseous ions, describes lattice energy.

The enthalpy change required to convert one mole of an ionic solid into gaseous ionic components is known as lattice energy. The strength of the ionic bonds in an ionic compound is gauged by lattice energy. It holds the particles together in a molecule. Thus, option A and C describes lattice energy. It sheds light on a number of ionic solids' characteristics, such as their solubility, hardness, and volatility.

The lattice energy of an ionic solid cannot be measured directly, but only be detected with Born-Haber cycle. It is expressed in terms of kilo-joule per mole, KJ/mol.

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Covalent bonding is present in Quartz. Covalent bonds result in a high melting point. Covalent solids are insoluble in most solvents.

Quartz is very hard to melt because quartz is unsteady above 870 Celsius, and molten silica is wobbling below 1713 Celsius. In the interval between 870 and 1713 degrees, quartz tends to change to tridymite or cristobalite, not melt. It is hard to heat quartz to melt, in the region of 1650 Celsius

Melting point: The melting point of quartz is higher than 1700°C. Curie temperature for alpha and beta quartz: The Curie warmth for quartz is 573°C.

So we can conclude that Crystal quartz has a very particular melting point. Because quartz glass is a single component it doesn't form eutectics

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The correct IUPAC name for the molecule is option c) 4,6,7-tetramethylnonane.

To name the molecule, we start by identifying the longest continuous carbon chain, which in this case contains nine carbon atoms. We number the chain from the end that gives the substituents the lowest possible numbers, which gives us the numbering 1-2-3-4-5-6-7-8-9.

The molecule has three branches: a propyl group on carbon 5, an ethyl group on carbon 2, and a methyl group on carbon 3. We name these branches as substituents and indicate their positions with their respective numbers. Therefore the correct IUPAC name for the molecule is 4,6,7-tetramethylnonane.

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Assessment of a suspect's threat and risk is referred to as "suspect-based profiling".

Understanding the numerous risks to your IT systems, assessing the amount of risk to which these systems are exposed, and suggesting the proper level of protection all require the use of a Threat and Risk Assessment (TRA).

Thus, assessment of a suspect's threat and risk is referred to as "suspect-based profiling".

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the wavelength of a single photon of UV-A electromagnetic radiation that possesses an energy of 6.2 x 10^-19 J is approximately 3.210 x 10^-5 cm. The option closest to this answer is 3.2 x 10^-5 cm.

explain about energy ?

The energy E of a photon is related to its wavelength λ by the following formula:

E = h * c / λ

where h is the Planck's constant, c is the speed of light in a vacuum, and λ is the wavelength of the photon.

We are given the energy of a single photon of UV-A electromagnetic radiation as 6.2 x 10^-19 J. The values of h and c are:

h = 6.626 x 10^-34 J s

c = 2.998 x 10^8 m/s (the speed of light in a vacuum)

To convert the wavelength to centimeters, we can use the conversion factor of 1 m = 100 cm.

Now we can rearrange the formula to solve for the wavelength λ:

λ = h * c / E

Substituting the given values, we get:

λ = (6.626 x 10^-34 J s) * (2.998 x 10^8 m/s) / (6.2 x 10^-19 J)

λ = 3.210 x 10^-7 m = 3.210 x 10^-5 cm (after conversion)

Therefore, the wavelength of a single photon of UV-A electromagnetic radiation that possesses an energy of 6.2 x 10^-19 J is approximately 3.210 x 10^-5 cm. The option closest to this answer is 3.2 x 10^-5 cm.

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Answer:

hen acetic acid reacts with aluminum, the following reaction occurs:

2 CH3COOH + Al -> Al(CH3COO)2 + H2

The number of moles of acetic acid can be calculated using the formula:

moles = (concentration) x (volume) = (4 M) x (0.25 L) = 1 mole

Since 2 moles of acetic acid react with 1 mole of aluminum to produce 1 mole of hydrogen gas, we can calculate the number of moles of hydrogen gas produced:

moles of H2 = 1 mole / 2 = 0.5 moles.

So, 0.5 moles of hydrogen gas would be produced when 250 mL of a 4 M solution of acetic acid is used with plenty of aluminum.

Explanation:

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Streak is the color of the mineral when it is powdered. This property is useful for identifying minerals, as the streak of a mineral is often different from its visible color.

For example, hematite, which appears as a dull red or brown in its natural form, has a streak that is a bright red color. This property is determined by rubbing the mineral on a piece of unglazed porcelain, which leaves behind a streak of the powdered mineral. Streak can be affected by the presence of impurities in the mineral, but in general, it is a reliable way to identify a mineral.Streak is a physical property of minerals that refers to the color of the powdered form of a mineral. It is determined by rubbing the mineral on an unglazed porcelain plate, which leaves behind a streak of the mineral's powder. Streak is a useful tool for mineral identification, as it can often be more consistent and distinct than the visible color of a mineral. For example, some minerals may have variable visible colors due to impurities, but their streak will be consistent. Streak can also be used to distinguish between minerals that may look similar but have different properties.

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215 grams of AlCl₃ is equal to 1,61 moles of AlCl₃. The relative molecular mass of the compound AlCl₃ is 133.5 grams/mol.

The mole is one of the basic units used to indicate the amount of substance in the international system of units. The equation for calculating moles is mol = mass / relative atomic mass. To find out the mol of AlCl₃ you can use the following steps

Step 1: Calculate the relative molecular mass for the compound AlCl₃.

Mr AlCl₃ = ( Ar Al × ∑Al ) + ( Ar Cl × ∑Cl)

              = ( 27 gam/mol × 1) + ( 35,5 gram/mol × 3)

              = 27 gram/mol + 106,5 gram/mol

             = 133,5 grams/mol

Step 2: Calculate the moles of the compound AlCl₃.

n AlCl₃ = mass AlCl₃ ÷ relative molecular mass AlCl₃

            = 215 grams ÷ 133,5 grams/mol

            = 1,61 mol

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The balanced chemical equation for the reaction is as follows: 3AgNO3 + Na3PO4 -> Ag3PO4 + 3NaNO3

A balanced chemical equation is a chemical equation in which the number of atoms for each element in the reaction's reactants and products are equal. This means that the same number of atoms of each element is conserved and that the equation is balanced. In other words, a balanced chemical equation follows the law of conservation of mass, which states that matter can neither be created nor destroyed.

Since the amounts of both reactants are equal (200 g each), the same amount of each will be consumed in the reaction. This means that 200 g of each reagent will be used and there will be no excess reagent. Therefore, the answer is 0 g of excess reagent.

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The features that make H₂O a polar molecule are:

It is a bond that occurs when the bonding atoms have a difference in electronegativity causing the generation of an area with higher electron density creating a positive pole and a negative pole.

The oxygen atom in water has a partial negative charge, while the hydrogen atoms have a partial positive charge. This results in an overall dipole moment, with the molecule having a slightly positive end and a slightly negative end.

H₂O is a polar molecule due to its bent molecular shape, an uneven distribution of electron density, and uneven electron distribution within each bond of the molecule. This results in an overall electrical charge for the molecule.

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The inclination to lose/gain an electron is due to their electron configurations and the resulting stability, sodium tends to lose an electron to become a positively charged ion, while chlorine tends to gain an electron to become a negatively charged ion.

Sodium has an electron configuration of 1s2 2s2 2p6 3s1, meaning it has one valence electron in its outermost shell. It is energetically favorable for sodium to lose this electron and achieve a full valence shell, which would give it the electron configuration of a noble gas (neon), 1s2 2s2 2p6. This stable configuration is achieved by the loss of one electron, which forms a positively charged ion with a full outer shell.

On the other hand, chlorine has an electron configuration of 1s2 2s2 2p6 3s2 3p5, meaning it has seven valence electrons in its outermost shell. It is energetically favorable for chlorine to gain one electron to achieve a full valence shell, which would give it the electron configuration of a noble gas (argon), 1s2 2s2 2p6 3s2 3p6. This stable configuration is achieved by the gain of one electron, which forms a negatively charged ion with a full outer shell.

ThereforeThis process of electron transfer allows both atoms to achieve a stable electron configuration and become more energetically stable.

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Clever is the characteristic that a  scientific experiment must have to be valid. Therefore, the correct option is option A.

An experiment, in its most basic form, is just the testing of a theory. In turn, a hypothesis is a suggested relationship or explanation for a phenomenon.

The experiment is the cornerstone of the scientific method, that is a methodical approach to learning about the world around you. Although some experiments are conducted in laboratories, an experiment can be conducted anywhere, at any time. Clever is the characteristic that a  scientific experiment must have to be valid.

Therefore, the correct option is option A.

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The use of different concentrations of aqueous isopropanol in a step gradient separation is often done to achieve a better separation of molecules or compounds in a sample.

The use of different concentrations of aqueous isopropanol in a step gradient separation is often done to achieve a better separation of molecules or compounds in a sample.

In step gradient separation, a series of solutions with increasing or decreasing concentrations of a solvent is used to separate molecules based on their different affinities for the solvent. By gradually changing the solvent composition, molecules with different properties (such as size, polarity, or charge) can be separated from each other.

In the case of aqueous isopropanol, changing the concentration of isopropanol in the solution can change the polarity of the solvent system. This can be useful for separating molecules that have different polarities, as they will have different affinities for the solvent at different concentrations.

For example, in a mixture of polar and nonpolar compounds, a low concentration of isopropanol may be more effective at eluting the polar compounds, while a higher concentration may be needed to elute the nonpolar compounds. By using a series of solutions with different isopropanol concentrations, a step gradient separation can be achieved that separates the different compounds in the mixture.

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One mole of every elements contains 6.02 × 10²³ atoms. Then, 4 moles of N₂ contains 2.4 × 10²⁴ molecules . one mole of water contains  6.02 × 10³¹  molecules.

One mole of a substance is its amount containing 6.02 × 10²³  atoms or molecules. This number is called Avogadro number. One mole of every elements contains Avogadro number of atoms.

Similarly one mole of every compound contains 6.02 × 10²³  molecules. The mass of one mole of compound is called its molar mass.

Given that there are 4 moles of the compound. One mole of every N₂ 6.02 × 10²³ molecules. Then, 4 moles of N₂ contains 2.4 × 10²⁴ molecules

One mole of water contains Avogadro number of water molecules. One formula unit of water contains 2 hydrogens and one oxygen. Then, there are 2.4 × 10²⁴  hydrogen atoms and 6.02 × 10²³ oxygens.

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Your complete question is as follows:

Given the reaction below: List the amount of Molecules Of each element​ in the reactant side.

4 N₂ (g)+ H₂O (l)

X is an electropositive metal as it loses electrons and Y is a non-metal as it gains electrons.

Compounds formed between metal and nonmetal are ionic compounds.

What is a compound?

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Answer:

The name of the chemical compound CoCl2•6H2O is cobalt(II) chloride hexahydrate.

Answer:

3 atm

Explanation:

To solve this we must know the concept behind the phenomenon of elevation in boiling point when a non volatile solute is added to any solvent. Therefore, boiling point in °C of a 0.527 m aqueous solution of LiBr is  100.54 °C.

Mathematically,

ΔT= Kb× molality

The complete balanced equation can be written as

LiBr → Li⁺ + Br⁻ [two ions]

substituting all the given values in the above mathematical expression, we get

(0.527 m LiBr) x (2 mol ions / 1 mol LiBr) = 1.054 m ions

(0.512 °C/m) x (1.054 m) = 0.540 °C change

100.00°C + 0.540 °C = 100.54 °C

Therefore, the boiling point in °C of a 0.527 m aqueous solution of LiBr is  100.54 °C.

What is elevation in boiling point ?

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Sigma bonds are formed by the end-on overlap of orbitals. A sigma bond ([tex]\sigma[/tex] bond) is a type of bond formed by the overlapping of orbitals in an end-to-end fashion.

There are two types of bonding. They are:

A pi bond ([tex]\pi[/tex] bond) is a type of bond formed by the overlapping of the orbitals in a side-by-side fashion. One pi bond and one sigma bond are present in an alkene. Two pi bonds and one sigma bond can be found in alkynes.

Both the structure and the reactivity are greatly impacted by this. The head-on intersection of two sp orbitals results in the formation of the sigma bond. The side-on overlapping of 2p orbitals results in the formation of pi bonds.

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Answer:

1. Shower instead of bathing.

2. When you leave the room, turn off everything.

3. Grow a Tree

4. Bicycle or walk to school.

Explanation:

As global temperatures rise, wildfires, droughts, and increased electrical consumption place strain on the country's energy system. Severe weather is the main cause of power outages and fuel supply disruptions in the United States. And, because energy generation is one of the greatest producers of CO2 to the climate, people and students alike must have the information and abilities to comprehend the issues, create and execute solutions, and advocate for change.

To measure the rate of photosynthesis in a water plant, the variable Ben should record is the change in dissolved oxygen levels.

Photosynthesis is the process by which plants convert light energy into chemical energy, which is stored in the form of carbohydrates. One of the byproducts of photosynthesis is oxygen, which is released into the surrounding water. By measuring the change in dissolved oxygen levels over time, scientists can determine the rate at which the plant is producing oxygen through photosynthesis.

In addition to dissolved oxygen levels, other variables that can be recorded to determine the rate of photosynthesis in water plants include the rate of carbon dioxide uptake, the rate of change in chlorophyll fluorescence, and the rate of change in pH levels

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When a strong base is added to a buffer solution containing equal concentrations of a weak acid and its conjugate base, the equilibrium of the buffer shifts towards the conjugate base, and the ratio of weak acid to conjugate base changes.

A buffer solution consists of a weak acid (HF) and its conjugate base (F-). When a strong base, such as NaOH, is added to the buffer solution, the base will react with the weak acid to produce more of its conjugate base and less of the weak acid. This will shift the equilibrium of the buffer towards the conjugate base and increase the concentration of the F- ion in the solution.

However, the buffer is designed to resist changes in pH, so the effect of the added base will be somewhat limited. The buffer will work to restore the original pH by reacting with some of the added base to produce more of the weak acid. As a result, the ratio of the weak acid to its conjugate base will change, but the change will be relatively small.

The key feature of a buffer solution is its ability to resist changes in pH, so even though the ratio of weak acid to conjugate base will change, the overall pH of the solution will change only slightly. This makes buffer solutions useful for maintaining a stable pH in a wide range of applications, such as biological systems and chemical processes.

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Answer:

isotope

Explanation:

The concentration of the acid is  0.016 M

A neutralization reaction is a chemical reaction in which an acid and a base react to form a salt and water. The reaction occurs when the hydrogen ions (H+) from the acid react with the hydroxide ions (OH-) from the base to form water (H2O). The salt that forms depends on the specific acid and base that are reacted.

Using;

CAVA/CBVB = NA/NB

CA = concentration of acid

CB = concentration of base

VA = volume of acid

VB = Volume of base

Then;

CAVANB = CBVBNA

CA =  CBVBNA/VANB

CA = 0.0193 M  *  25.6 mL * 1/15 mL  * 2

CA = 0.016 M

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One gram is 10⁶ micrograms. One kilogram is 1000 grams. Then 1 kg is 10⁹ micrograms. Therefore, 10 kg is equal to 10¹⁰ grams.

Mass of a substance is the measure of its total amount. Mass is an extensive unit. Mass can be expressed in various units. The SI unit of mass is grams.

We know that,1 kg = 1000 g = 10³ g.

one microgram = 10⁻⁶ g or,

one gram = 10⁶ micrograms.

Now, one kg = 10³ g, then,

one kg = 10³× 10⁶ micrograms  = 10⁹ micrograms.

Then micrograms equivalent to 10 kg is 10 times the amount in 1 kilogram

that is, 10 kg = 10 ×10⁹ micrograms  = 10¹⁰ micrograms.

This way, you will get the correct answer.

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Answer:

The reaction between aluminum and oxygen to produce aluminum oxide can be represented by the chemical equation:

4 Al + 3 O2 → 2 Al2O3

The number of moles of aluminum can be calculated as follows:

9.2 g Al ÷ 26.98 g/mol = 0.34 mol Al

Since the reaction ratio is 4 Al to 2 Al2O3, the number of moles of aluminum oxide produced is half the number of moles of aluminum:

0.34 mol Al ÷ 2 = 0.17 mol Al2O3

Finally, the mass of aluminum oxide produced can be calculated as follows:

0.17 mol Al2O3 × 101 g/mol = 17.2 g Al2O3

Explanation:

Warm-blooded animals employ radiation to regulate the temperatures of the body. Therefore, the correct option is option A.

The term "warm-blooded" relates to animal species that bodies sustain a temperature higher than the ambient temperature. Homeothermic creatures (birds and mammals included) control metabolic activities to maintain a constant body temperature. The degree of thermoregulation in other animals varies.

Because animals employ more than two methods of temperature regulation, the terms "warm-blooded" and "cold-blooded" have become derogatory within the scientific community. Warm-blooded animals employ radiation to regulate the temperatures of the body.

Therefore, the correct option is option A.

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Option (d) is correct. Freezing of sea water is not responsible for the thermohaline circulation.

Thermohaline circulation is defined as the movement of ocean water caused by density difference brought about by variations in temperature and salinity. As ocean water freezes at the poles it concentrates salt and the colder and denser water sinks. It is a part of the large scale ocean circulation that is driven by global density gradients created by surface heat and freshwater. The term thermohaline derives from word "thermo", referring to temperature and "haline", referring to salt content. Both together determine the density of sea water. Thermohaline circulations occur in certain marginal seas associated with warm waters rendered dense by their high salinity resulting from evaporation.

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