What is the temperature change the H2O sample

It contain 2 mol of HCl. To find the moles of HCl, you have to change the volume units into dm³ or liter.

How to calculate the value of that HCl mole?

As per data given:

Vacid = 100 cm³

Molacid = 0.2 mol/dm³ = 0.2 mol/L

First, we have to change volume unit into liter or dm³. So

Vacid =  100 cm³ = 0.1 L

Then calculate the moles of HCl:

Moles of HCl = Molacid : Vacid

Moles of HCl = 0.2 : 0.1

Moles of HCl = 0.2 x 10

Moles of HCl = 2 mol

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The pressure of a gas is directly proportional to its temperature. Hence, as temperature decreases  pressure decreases.

According to Gay- Lussacs law at constant volume, the pressure of a gas is directly proportional to the temperature.

Hence, P/T = constant.

Let P1 and T1 be the initial pressure and temperature and P2, T2 be the final quantities, then

P1/T1 = P2/T2

Given P1 = 1 atm

T1 = x ° C

T2 = x/2° C

Then P2 = P1 T2/T1

P2 = 1 × x/2° C / x° C

   = 1/2 atm

That is one half of the initial pressure.

Therefore, the pressure of the gas reduces to half when temperature is reduced to half.

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An organism is considered extinct if the fossil evidence reveals the remains of one that is no longer present-day. As a result, scientists might conclude that the majority of Earth's animals are already extinct because they have noted that certain qualities and traits are absent from species that are still alive.

The phrase "extinction" refers to the end of a particular type of organism or a set of types, typically a species. Although the ability to reproduce and bounce back may have been lost earlier, the death of the last individual of the species is widely considered to be the moment of extinction.

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The limiting reactant if 70.0 g of C7H6O3 and 80.0 g of C4H6O3 react is salicylic acid (C7H6O3).

In this case, given that:

70g C7H6O3

80g C4H6O3

Molar mass of C7H6O3 = 138 g/mol

Molar mass of C4H6O3 = 102 g/mol

So, we need to convert C7H6O3 to C4H6O3 as below:

= 70g C7H6O3

= (molar mass of C4H6O3 / molar mass of C7H6O3) * mass of C7H6O3

= (102 / 138) * 70

= 51.74g C4H6O3

Thus, when 70.0 g of C7H6O3 and 80.0 g of C4H6O3 react, it will be:

80g C4H6O3 – 51.74g C4H6O3 = 28.26g C4H6O3

And, that means there are 28.26g C4H6O3 left after reacting it with C7H6O3.

Hence, the limiting reactant is salicylic acid (C7H6O3).

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Car 1 of mass m1 is waiting at a traffic light. Car 1 is struck from behind by car 2 of mass m2. The two cars stick together after the collision. Car 2 was traveling at v2i = 30. 0 m/s before the collision. The kinetic energy of the system after the collision would be 128.5  KJ.

It is the combined effect of a particle's mass and speed, and it can be described as the product of these two quantities. Any particle's momentum is given in kilograms per second (Kg/s).

Car 1 of mass m1 is waiting at a traffic light, as stated in the problem.

Car 2 of mass m2 collides with Car 1 from behind. After the crash, the two cars stay joined. Car 2 was moving at a speed of 30.0 m/s when it collided with Car 1.

Using the principle of momentum conservation

2500(0) + 1000(30) = (2500 + 1000)v

v = 8.57 m/s

The system's calculated final velocity is 8.57 m/s.

the system's kinetic energy following the collision,

KE = 1/2 mv²

KE =1/2×(2500 + 1000)×8.57² = 128,571.4

= 128.5 KJ

As a result, the system's kinetic energy following the collision would be 128.5 KJ.

Your question is incomplete but most probably your full question was

Car 1 of mass m1 is waiting at a traffic light.

Car 1 is struck from behind by Car 2 of mass m2.

The two cars stick together after the collision.

Car 2 was traveling at v2i = 30.0 m/s before the collision.

What is the kinetic, in [J], of the system after the collision if m1 = 2500 kg and m2 = 1000 kg?

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Most proteins absorbed in the digestive tract in duodenum or proximal jejunum of the small intestine.

The digestive system is a process carried out by the digestive organ system to process food so that its nutrients can be absorbed by the body and converted into energy. The digestive tract consists of the mouth, esophagus, stomach, small intestine, large intestine, rectum and anus.

The small intestine is a long tube that has villi on its walls. The small intestine consists of three parts namely the duodenum, jejunum and ileum. In the wall of the small intestine there is a mucosa that produces juice containing enzymes. Enzymes function to digest complex materials into simpler ones, then the results of the digestion are completed and absorbed by the villi in the duodenum or proximal jejunum.

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1.00 mol of water contains the most hydrogen atoms.

1 mol of water(H2O) contains 2 mol of hydrogen atoms

molar mass of hydrogen = 1.01 g/mol,

so 1 mol of water contains 21.01 = 2.02 g of hydrogen.

1 mol of Ammonia (NH3) contains 1 mol of hydrogen atoms

molar mass of hydrogen = 1.01 g/mol,

so 1 mol of ammonia contains 11.01 = 1.01 g of hydrogen.

hydrogen in 10.0 g of water  = 4.83 ×[tex]10^(22)[/tex] hydrogen atoms

hydrogen in  15.00 g of ammonia = 1.48  ×[tex]10^(23)[/tex] hydrogen atoms.

1 mol of water contains the most hydrogen atoms. This is because water, chemically represented as H2O, contains two hydrogen atoms for every oxygen atom. While 1 mol of ammonia(NH3) contains 1 mol of hydrogen atoms, 1 mol of water contains 2 mol of hydrogen atoms.

Therefore, 1 mol of water contains more hydrogen atoms than 1 mol of ammonia, and that's why option 3 -1 mol of water contains the most hydrogen atoms out of the options provided.

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A tick marks between both the boldface values on this beam denote tenths of grams, while the bolded text numbers in this beam are in grams.Simply sum the figures from of the three beams to determine the object's mass that is resting on the pan.

To keep a beam horizontal for just a beam balance, a body with gravitational mass m1 and a standard weight pf m2 are placed in the left and right pans, respectively. If a1 = a2, then m1 = m2, and vice versa.

Yes, it is possible to achieve equilibrium between the two masses by bringing the midway (balancing point) closer to a heavier object or closer to the center of gravity.

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Answer: The answer is the trees roots and trunk are growing in responsive to gravity

Explanation: Gravity cant pull the roots of the tree upward causing the roots of the tree to grow straight within its height.

Answer:

Explanation:

i. To find the limiting reactant, we need to compare the number of moles of each reactant that we have. We can convert the mass of Fe2O3 and CO to moles by using their molar masses.

Fe2O3: 130g / (159.69 g/mol) = 0.817 mol

CO: 50g / (28.01 g/mol) = 1.78 mol

Since we have less moles of Fe2O3 than CO, Fe2O3 is the limiting reactant.

ii. To find the mass of iron produced, we first need to find the number of moles of Fe2O3 that react by using the balanced equation.

Fe2O3: 0.817 mol Fe2O3 x (2 mol Fe/1 mol Fe2O3) = 1.634 mol Fe.

then we can convert that to mass by using the molar mass of Fe.

1.634 mol Fe x (56 g/mol) = 91.984 g of Fe

iii. To find the number of moles of unreacted reagent, we need to subtract the number of moles of Fe2O3 that reacted from the original number of moles of Fe2O3 that we had.

0.817 mol - 0.817 mol = 0 mol of Fe2O3 left over.

iv. To find the volume of CO2 produced, we need to use the ideal gas law PV = nRT.

Where P is pressure, V is volume, n is the number of moles, R is the ideal gas constant and T is the temperature in kelvin.

Since we know the number of moles of CO2 produced is 1.634 mol and pressure and temperature in the question.

So, we can calculate the volume by using this information.

V = (1.634 mol * 8.314 J/mol*K * (25+273.15) K) / 2atm = 24.24 L

So, 24.24 L of CO2 is produced at 25°C and 2atm pressure.

Only a small percentage of the particles have been seen to be deflected, while the majority have passed through the layer. Rutherford concluded as a result that an atom's mass was concentrated at its centre.

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Yes , Serine is a polar but neutral amino acids.

Asparagine, glutamine, threonine, and serine are polar but uncharged amino acids. These side chains tend to project into the aqueous phase because they can create many hydrogen bonds.

If they are buried polar groups, they are hydrogen-bonded to other buried polar groups if they are inside the protein.

Because the hydroxyl groups in serine and threonine's side chains are polar and near to the main chain, they can establish hydrogen bonds with the main chain.

Ser is essentially hydroxy-Ala since it has one -OH group. Because the hydroxyl group on Ser typically does not ionize, it is not charged and is instead neutral in proteins. Ser is the most polar and smallest of the polar amino acids.

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The ideal gas law describes the behavior of a gas under ideal conditions, which typically means that it is at a low density and a high temperature.

When these conditions are met, the gas will behave in a manner that is consistent with the ideal gas equation. Generally, a gas will exhibit its ideal properties when it is in a container with a large volume, has a low pressure, and is at a high temperature.

Additionally, the gas particles must be small and non-interacting, meaning that they do not interact with each other. When these factors are taken into account, a gas will most likely display the ideal gas properties predicted by the ideal gas law.

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The fluorine atom's high electronegativity (4.0 vs. 2.5 for carbon) provides the carbon-fluorine bond a sizable polarity/dipole moment.

A measure of an organism's ability to draw electron pairs to itself is its electronegativity. On the chemical elements, electronegativity typically rises from left to right over a period and falls from top to bottom within a group.

An indicator of an atom's attraction to the electron in a condensation reaction is its electronegativity. An atom will be more attracted to bonding electrons the higher its electronegativity.

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According to the Bohr model of the atom, the single electron of a hydrogen atom circles the nucleus is a. in specific, allowed orbits.

The Bohr model of the atom was introduced by the Neil Bohr . According to it :

Thus , According to the Bohr model the single electron of a hydrogen atom circles the nucleus in specific, allowed orbits.

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It has long chains of molecules that are tangled at room temperature that make it a good material for making bowls.

The smallest particle of a material that possesses all of its physical and chemical characteristics. One or more atoms make form a molecule. A molecule is the smallest particle of any material that may exist independently while retaining the physical and chemical characteristics of the substance and is composed of one or more components. Molecules are further subdivided into atoms. For example, an oxygen atom is denoted as O, whereas an oxygen molecule is denoted as O2. Molecules are classified into three types: atom molecules, element molecules, and compound molecules.

Here,

It features lengthy chains of molecules that are tangled at room temperature, making it an excellent material for bowls.

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To balance a chemical equation, it is permissible to adjust the: coefficients.

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The pressure of C2H4 and N2 gas is 0.3 atm

Based on the information provided, it appears that C2H4 and CH4 are added to a mixture of CO and N2 and then exposed to excess oxygen. The resulting mixture is then placed in a rigid container at a constant volume, and the pressure of CO2 and H2O vapor is measured to be 0.9 atm and 0.8 atm, respectively.

If the number of moles of C2H4 and CH4 is equal, the sum of the pressure of C2H4 and N2 gas can be calculated by subtracting the pressure of CO2 and H2O vapor from the total pressure. Since the total pressure is 1 atm, the sum of the pressure of C2H4 and N2 gas is:

1 atm - 0.9 atm - 0.8 atm = 0.3 atm

It is worth noting that this answer is based on the information provided and any additional information or assumptions may affect the final result.

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a) The percentage abundance determines the relative atomic mass.

b) The relative atomic mass for the element X is122.5 amu

c) The Rutherford's model explained showed the movement of the electrons.

The isotopes are the kinds of atoms of an element that we can see. We know that all the element that we have in the periodic table are composed of the isotopes and the isotopes of the elements are important in the determination of the relative atomic mass of the element that we may be considering here called X

We can now be able to see from the forgoing that we have here that;

Relative atomic mass = Weighted average of all the isotopes

As such we have;

(121 * 0.432) + (123 * 0.531) + (129 * 0.0370)

52.27 + 65.31 + 4.773

=122.35 amu

The Rutherford model of the atom can also be called the planetary model of the atom and this is the model that can be able to explain to us the way that the electrons move round the nucleus.

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Laura could use a few different methods to determine which beakers contain pure water and which contain solutions. One method is to test the boiling point of each liquid. Pure water boils at 100 degrees Celsius at standard pressure. If the liquid in a beaker boils at a temperature higher than 100 degrees Celsius, it is likely a solution and not pure water. Another method is to test the freezing point of each liquid. Pure water freezes at 0 degrees Celsius at standard pressure. If the liquid in a beaker freezes at a temperature other than 0 degrees Celsius, it is likely a solution and not pure water.

Another method is through density test. Pure water has a density of 1g/cm³ at 4°C. Laura can use a hydrometer, which is an instrument that measures the density of a liquid to check if the density of the liquids in the beakers is equal to 1g/cm³. If it is not, then it is not pure water.

Additionally, Laura could also test the conductivity of the liquids. Pure water is a poor conductor of electricity, whereas solutions can conduct electricity. Laura could use a conductivity meter to check the conductivity of the liquids. If a liquid conducts electricity, then it is likely a solution and not pure water.

Finally, Laura could also use a refractometer, which measures the refractive index of the liquid. The refractive index of pure water is 1.333 and any deviation from this value indicates the presence of dissolved solutes.

It's important to notice that no single test can confirm that a liquid is pure water, but a combination of tests can give us a strong indication of it.

Answer:

yes, odor is classified as a physical property

Explanation:

The net ionic equation is: D. Ag+ + Cl- --> AgCl

The chemical formula for the product formed from CaCl2 in the equation 2 AgNO3 + CaCl2 --> 2 AgCl(s) + Ca(NO3)2 is Ca(NO3)2. This is a compound that consists of one calcium ion (Ca2+) and two nitrate ions (NO3-). It is a salt of calcium and nitric acid. It is a white crystalline solid that is highly soluble in water and is commonly used as a fertiliser. It is also sometimes used in the laboratory as a source of calcium ions in experiments. Overall, it is a product formed by the combination of two substances: calcium chloride and nitric acid.

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Here, we have to draw the main organic products of a given bimolecular substitution reaction and the curved arrow mechanism of the reaction.

(Answer is attached in the picture)

Substitution reactions involve the replacement of one functional group in a molecule by another functional group. Nucleophilic substitution reactions involve a nucleophilic reagent with a substrate that has a positively or partially positively charged portion of the molecule (electrophile).

An electrophile is an atom or molecule that lacks electrons. In organic reactions, electrophiles act as electron acceptors (Lewis's acids). These reagents can be cations or neutral molecules that have relatively positively charged atoms.

Meanwhile, a nucleophile is an atom or molecule that is rich in electrons. The nucleophile has an electron pair that can be donated (a Lewis base). Some nucleophiles are neutral molecules that have a PEB and some are negatively charged. In a chemical reaction, electrons from the nucleophile strike the electrophile center to form new bonds as a result of the reaction.

On the question:

Use of curved arrows to indicate: A broken or formed bond.

Electron layer protective layer arrow

In the reaction of this problem, I replaced Br (Substitution) and Br bonded with Na⁺.

The nucleophile "replaces" the leaving group.

Called a substitution reaction: I replace Br (change places).

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In the given diagram,  the first atom contains one valence electron and the second have 7 valence electrons. The first atom donates the one electron to the second atom and both achieve octet and forms and ionic compound.

Ionic compounds are formed between a metal and non-metal. Metals are rich in electrons and easily loss one or more electrons to other atoms. Non-metals are electron deficient and can gain electron from metals. These electron loss and gain between atoms forms the ionic bond between them.

In the diagram the first atom contains total 11 electron of which one is valence electron. By donating this extra electron the atom can achieve octet. The second one contains total 17 electrons  of which  7 are valence electrons, thus need one more electron to attain octet.

The first atom represents sodium atom and the second one is chlorine atom. Sodium donates its valence electron to Cl and form the ionic compound NaCl.

Na⁺ + Cl⁻ ⇒ NaCl

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By beta emission, nitrogen is produced as carbon-14 decays. A particle is actually a rapidly moving electron with no mass and a net negative charge.

Unattached or attached to an atom, an electron is a negatively charged subatomic particle (not bound). One of the three main types of particles inside an atom, along with protons and neutrons, is an electron that is linked to the atom.

The term "electrons" now refers to these negatively charged cathode ray particles. Negatively charged electrons are incredibly light particles. The total amount of protons and neutrons makes up an atom's mass. While neutrons are neutral particles, protons are positively charged.

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Answer:

The molarity of the solution is 25.5 M.

To calculate the molarity, we can use the formula: Molarity = (moles of solute/volume of solution). The molar mass of HCl is 36.5 g/mol, so we can calculate the number of moles present in 85.6 g of HCl: 85.6 g HCl/36.5 g/mol = 2.35 mol. We can then plug that value into our formula: Molarity = (2.35 mol/0.385 L) = 25.5 M.

The ionic compound's metal will be replaced with AI. True for Fe2O3

Atomic bonds can be covalent or ionic in nature. The structures and characteristics of these bonds vary. Pairs of electrons are included in covalent bonds through the binding of two atoms in a specific orientation. Ionic bonds, on the other hand, are bonds that connect two ions.

Ionic bonding will typically be present in compounds where a metal is bound to either a quasi or a semi-metal. Molecular compounds are those that contain only non-metals or quasi combined with non-metals and exhibit covalent bonding.

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Mole measure the number of elementary entities of a given substance that are present in a given sample. Therefore, 1.42×10²¹ molecules are in 0.00236 mole of NaOH.

The SI unit of amount of substance in chemistry is mole. The mole is used to measure the quantity of amount of substance. It measure the number of elementary entities of a given substance that are present in a given sample. There are so many formula for calculating mole. We know one mole of any element contains 6.022×10²³ atoms which is also called Avogadro number

number of atoms/molecules=number of moles × 6.022×10²³(Avogadro number)

number of moles of NaOH=0.00236 mole

Substituting all the given values in the above equation, we get

number of atoms/molecules=0.00236 × 6.022×10²³

number of atoms/molecules=1.42×10²¹ molecules

Therefore, 1.42×10²¹  molecules are in 0.00236 mole of NaOH.

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The mass of 6.022 1023 atoms of 12C is equal to 12 grams.

This is because 12C has an atomic mass of 12, meaning that each atom of 12C has a mass of 12 grams.

This means that 6.022 1023 atoms of 12C would have a total mass of 12 grams.

According to the Avogadro's constant, 6.022 x 1023 atoms of 12C would have a mass of 12 x 6.022 x 1023 grams, which is equal to 72.264 x 1023 grams.

Avogadro's Constant is an important physical constant which states that the same number of particles (atoms, molecules, ions, etc.) have the same mass in a given sample regardless of the nature of the particles.

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