By using the reaction and given data, we find that the 1.25 g sample contains approximately 83.9% Al(C₆H₅)₃.
The primary calculations involve moles and molecular weight to determine the mass percentage.
The result shows a high concentration of Al(C₆H₅)₃ in the sample.
To determine the weight percent of Al(C₆H₅)₃ in the original 1.25-g sample, we need to work step-by-step through the given reaction:
Al(C₆H₅)₃ (s) + 3HCl(aq) → AlCl₃(aq) + 3C₆H₆(l)Given that 0.951 g of benzene (C₆H₆) is produced, we can use this information to find the moles of Al(C₆H₅)₃ reacted:
Molecular weight of C₆H₆ = 12(6) + 1(6) = 78 g/mol.Moles of C₆H₆ = 0.951 g / 78 g/mol = 0.0122 mol.From the balanced equation, 1 mol of Al(C₆H₅)₃ produces 3 mol of C₆H₆.So, moles of Al(C₆H₅)₃ = 0.0122 mol / 3 = 0.00407 mol.Next, we calculate the mass of Al(C₆H₅)₃:
Molecular weight of Al(C₆H₅)₃ = 27 (Al) + 3 × (12(6) + 1(5)) (C₆H₅ each) = 27 + 3 × 77 = 258 g/mol.Mass of Al(C₆H₅)₃ = 0.00407 mol × 258 g/mol = 1.049 g.Finally, we calculate the weight percent of Al(C₆H₅)₃ in the original sample:
Weight percent = (1.049 g / 1.25 g) × 100% ≈ 83.9%Therefore, the weight percent of Al(C₆H₅)₃ in the original 1.25-g sample is approximately 83.9%.
Correct question is: A 1.25-g sample contains some of the very reactive compound Al(C₆H₅)₃ .On treating the compound with aqueous HCl, 0.951 g of C6H6 is obtained.
Al(C₆H₅)₃ (s) + 3HCl(aq) --> AlCl₃(aq) + 3C₆H₆(l)
Assuming that Al(C₆H₅)₃ was converted completely to products, what is the weight percent of Al(C₆H₅)₃ in original 1.25-g sample?
What happens when an electron moves to a higher energy level? the atom loses the electron. the atom becomes more stable. the electron gains energy?
Consider a neutrally charged atom that has an atomic mass number of 80, which includes 35 neutrons. how many electrons does this atom have?
Answer:
45 electrons.
Explanation:
mass number = 80
no. of neutrons = 35
Given that it is a neutrally charged atom,
no. of electrons = mass no. - no. of neutrons
= 80 - 35
= 45 electrons.
∠3 and ∠4 are _______.
supplementary angles
complementary angles
vertical angles
congruent
Answer : The [tex]\angle 3\text{ and }\angle 4[/tex] are, supplementary angles.
Explanation :
Supplementary angles : The two angles are supplementary angle in whcih the the sum of those two angle are [tex]180^o[/tex]
Complementary angles : The two angles are complementary angle in whcih the the sum of those two angle are [tex]90^o[/tex]
Vertical angles : Vertical angles are the angles that are opposite to each other when two lines intersect each other.
Congruent angle : It is defined as they have the same angles.
From the above information we conclude that,
[tex]\angle 1\text{ and }\angle 2[/tex], [tex]\angle 2\text{ and }\angle 3[/tex], [tex]\angle 3\text{ and }\angle 4[/tex] and [tex]\angle 4\text{ and }\angle 1[/tex] are the supplementary angles.
[tex]\angle 1\text{ and }\angle 3[/tex] and [tex]\angle 2\text{ and }\angle 4[/tex] are the vertical angles.
Hence, the [tex]\angle 3\text{ and }\angle 4[/tex] are, supplementary angles.
What are the two measurement systems the thermometer uses? Which one is most commonly used for science? Why?
Which of the following would form a cation? Ne Li O I
Among the following, Li will form Catian due to its high probability of donating electron as it have low ionization enthalpy.
What is Ionization Enthalpy ?The ionization enthalpy of an element can be defined as the amount of energy required to remove an electron from an isolated gaseous atom in its gaseous state.
Among th given options ;
Ne is an inert gas element i.e, inactive element and has complete outermost orbit thus no need to accept or donate electron.
Li will form Catian due to its high probability of donating electron as it have low ionization enthalpy.
O has stable outermost orbital and thus no need to accept or donate electron.
I is the least reactive element and comparatively high ionization enthalpy.
Hence, Among the following, Li will form Catian due to its high probability of donating electron as it have low ionization enthalpy.
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The metric system is only used in France
True
or
False
What is the isotope with 50 protons, 68 neutrons, and 50 electrons?
Tin -118 is the isotope with 50 protons, 68 neutrons, and 50 electrons.
What is an isotope?Isotopes can be described as elements that contain the same atomic number but a different atomic mass. Isotopes of an element possess an equal number of electrons and protons. The number of neutrons in the respective nucleus of that element is different.
For example, the isotope of oxygen can be written as oxygen- 16, oxygen - 17, and oxygen-18 as all of them contain eight electrons or protons.
Tin metal has 29 isotopes but all the isotopes have the same number of electrons and protons. Among these only ¹²⁶Sn isotope is long-lived while the rest 28 isotopes of tin with a half-life of less than one year. The mass number of the given isotope of tin = 50 + 68 = 118. Therefore, the given isotope of tin is ¹¹⁸Sn. It has an abundance of 24.22%.
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What are the subatomic particles found in the electron shell of the atom?
Electrons are the smallest of the three particles that make up atoms. Electrons are found in shells or orbitals that surround the nucleus of an atom. Protons and neutrons are found in the nucleus. They group together in the center of the atom.
The electron shell of an atom contains electrons, negatively charged subatomic particles. Protons and neutrons, the other subatomic particles, reside in the atom's nucleus.
The electron shell of an atom contains one type of subatomic particle known as the electron. Electrons are very small particles with a negative charge, often represented by 'e⁻' in scientific notation. In contrast, two other subatomic particles, the proton and neutron, are located in the nucleus of the atom. Protons have a positive charge and are denoted by 'p⁺', while neutrons have no charge and are represented by 'n' or 'n⁰'. The combination of electrons, protons, and neutrons constitutes the fundamental architectural makeup of an atom, determining its element, isotopes, and chemical behavior.
Consider n2 (g) + 3h2 (g) →→ 2nh3 (g). what is the mass of nitrogen gas required to react with 0.129 g h2?
Answer:pookie dookie
Explanation:
Which of the following planets has a shorter year than Earth, as measured in Earth days? A. Uranus B. Mercury C. Saturn D. Jupiter
Mercury is the answer
N writing a chemical equation that produces hydrogen gas, the correct representation of hydrogen gas is
Answer:
H2
Explanation:
The 2 in this equation is supposed to be little.
Ionic compounds can conduct electricity when dissolved in water or melted, because A. they have shared electrons. B. they have no ions to contribute to the solution. C. the ions are fixed in place. D. the ions are free to move.
Which state of matter takes both the shape and volume of its container?
a. solid
c. gas
b. liquid
d. both b and c ____ 11. which state of matter is characterized by having an indefinite shape, but a definite volume?
a. gas
c. solid
b. liquid
d. none of the above?
Answer:
For 10: The correct answer is Option c.
For 11: The correct answer is Option b.
Explanation:
There are 3 states of matter:
Solid state: In this state, the particles are closely packed and does not have any space between them. Thus, this state of matter has the highest intermolecular forces of attraction.
This state have a definite shape and volume.
Liquid state: In this state, the particles are present in random and irregular pattern. The particles are closely arranged but they can move from one place to another. The intermolecular forces between the particles are less as compared to the solid state.
This state have a definite volume but does not have a fixed shape as they can take up the shape of container in which they are kept.
Gaseous state: In this state, the particles are loosely arranged and have a lot of space between them. Thus, this state of matter has the lowest intermolecular forces of attraction.
This state have indefinite volume as well as shape. It can take up the volume and shape of the container in which they are kept.
From the above information:
For 10: The state of matter which takes up the shape and volume of the container is gaseous state.
Hence, the correct answer is Option c.
For 11: The state of matter which has indefinite shape but have a definite volume is liquid state.
Hence, the correct answer is Option b
A gas takes both the shape and volume of its container, while a liquid has a definite volume but takes the shape of its container. A solid does not conform to the container's shape or volume.
States of matter are characterized by their ability to take the shape and volume of their containers. The state of matter that takes both the shape and volume of its container is the gas state. This is because the particles in a gas are spread out and can move freely to fill any space available. On the other hand, a liquid has a definite volume but takes the shape of its container. Conversely, a solid does not change to fit the shape or volume of its container as its particles are tightly packed and only vibrate in place.
Which state of matter takes both the shape and volume of its container?
The answer is gas (c), as gases will expand to fill the entire volume of their container and take its shape.
Which state of matter is characterized by having an indefinite shape but a definite volume?
The answer is liquid (b). Liquids have a fixed volume but will flow and change their shape to conform to the shape of their container, without changing volume.
Which two categories of organic compounds store energy? which of these organic compounds is more common?
is MgBr2 a covalent bond or an ionic bond
In the given question, [tex]\rm MgBr_2[/tex] is an ionic bond. The correct answer is option 2.
A covalent bond is a type of chemical bond in which two atoms share one or more pairs of electrons.
Ionic bonds is formed between a metal and a nonmetal, where one atom gives up an electron to another atom. In [tex]\rm MgBr_2[/tex], magnesium (Mg) is a metal and bromine (Br) is a nonmetal. Magnesium gives up two electrons to bromine, forming an ionic bond.
Therefore, option 2. ionic bond is the correct answer.
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What do the elements sulfur (s), nitrogen (n), phosphorus (p), and bromine (br) have in common? refer to the periodic table for help?
Answer:
They have the same number of valence electrons.
Which shows the temperatures of three substances, in order, from greatest to least?water vapor, ice, waterice, water, water vaporwater, water vapor, icewater vapor, water, ice?
The temperatures of three substances in order from greatest to least is
Water vaporWaterIceWhat is Temperature?This is the degree of hotness or coldness of a substance. It is also the
average kinetic energy present in a body.
Higher temperatures usually have the highest average kinetic energy.
Gases have the highest kinetic energy while Solids have the least kinetic
energy. In the case of Water, the gaseous form is Water vapor and the
solid form is Ice.
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Amanda dropped a rock into a graduated cylinder containing water. The water level in the cylinder increased. Which property of the rock is this experiment designed to measure A. Density B. Weight C. Volume D. Mass
Amanda dropped a rock into a graduated cylinder containing water. The water level in the cylinder increased. Density is the property of the rock.
What is density?Density is the mass of a specific material per unit volume. d = M/V, at which d is density, M is weight, and V is volume, is the formula for density. Grams per cubic centimeter are a typical unit of measurement for density. For instance, whereas Earth has a density of 5.51 grams, water has a density of 1 grams.
Another way to state density is in kilograms per cubic meter (in metre-kilogram-second or SI units). For instance, air weighs 1.2 pounds per cubic metre. Amanda dropped a rock into a graduated cylinder containing water. The water level in the cylinder increased. Density is the property of the rock.
Therefore, the correct option is option A.
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Chromium metal is added to a solution of nickel(ii) sulfate. what is the balanced chemical reaction? hints
Which of the following statements correctly describe metalloids?
- Metalloids are elements that have both metal and nonmetal properties
- Metalloids are metals that do not lose
-Metalloids are metals that do not attract electrons
-Metalloids are elements that only have metal properties Save
The statements that describe metalloids are these are elements that have both metal and nonmetal properties. The correct option is A.
What are metalloids?Metalloids are chemical elements that have the properties of both metals and non-metals. Metalloids are brittle and good conductors of electricity. They form alloys with metals. They have various chemical and physical properties that are used in many things like catalysis, flame, or glasses.
So, metalloids are elements that contain both metals and non-metals. They are not the metals that don't lose. They always do not attract electrons and only metal properties are also wrong because it has the properties of both.
Thus, the correct option is A. Metalloids are elements that have both metal and nonmetal properties.
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Each element has its own emission bright line spectrum pattern. True or false?
the answer is true. Each element has it's own emission bright line spectrum pattern
Which substance can be decomposed by a chemical change?
1. Sodium
2.argon
3.sulfur
4.amonia
Among the given substances, Ammonia, a compound, can be decomposed into Nitrogen and Hydrogen by a chemical change.
Explanation:The substance that can be decomposed by a chemical change among Sodium, Argon, Sulfur, and Ammonia is Ammonia. In a chemical change, one or more substances are converted into different substances. In this context, Sodium, Argon, and Sulfur are elements that exist in their most simplified form and cannot be broken further down by chemical change. On the other hand, Ammonia (NH3) is a compound and can be decomposed into Nitrogen and Hydrogen via chemical changes.
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How do the electrons in bonds (bonding domains) differ from lone pairs (non-bonding domains)?
The electrons in bonds (bonding domains) differ from lone pairs (non-bonding domains) is because the bonding domains are bonded to the central atom vs the lone pairs are just stuck on as extra electrons. The difference of bonding domains from non-bonding domains is that the bonding domains are bonded to the central atom and the non-bonding domains are just stuck on as extra electrons.
Answer:
The bonding electrons are different from nonbonding electrons by the arrangement with the central atom. Bonding electrons are bonded with the central atom. Nonbonding electrons appear are electron clouds.
Explanation:
During the formation of a chemical bond, there are bonding electrons and loan pairs.
The electrons of both the atom in a chemical bond share with each other and form a stable sigma bond. The electrons are linearly bonded with each other.
The electrons which are not directly bonded with other atoms, occupy the space at the top and bottom of the sigma bond. These electrons are present as the electron cloud and are termed the non-bonding electrons.
The bonding electrons differ from non-bonding electrons as bonding electrons are bounded by the central atom. Loan pair of electrons or nonbonding electrons are present as the electron cloud above or below the bond.
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What change takes place when a liquid absorbs heat energy without increasing its temperature?
the pressure increases
Giraffes with short necks lived in arid regions. Over time, grasses disappeared, forcing giraffes to eat from trees. Mutations in the genome led to some giraffes inheriting the trait for long necks. Over time, there were more giraffes with long necks in the region. What are the two reasons for the change in the population of giraffes? (More than one answer)
- adaptation?
- artificial selection?
- natural selection?
- harmful genetic traits?
Answer: adaptation
natural selection
Natural selection refers to the differential survival of the organisms in the population. It describe the fact that individual that have favorable phenotypic characteristics have better chances of survival over others in the changing environment. Adaptation is a genetic change or mutation that helps organism to survive in it's ecological niche. Due to the helpful nature of these genetic changes they are passed down from one generation to the next generation and favors the survival and abundance of a species.
Adaptation and natural selection has resulted in the change in the population of the giraffes. The giraffes being in short neck adapted the increase in neck length with an effort to obtain leaves from tall tries. The long neck giraffe got the better chances of survival and reproduction, due to natural selection the trait was passed on to generation. This resulted in the evolution of long neck giraffe species.
Why did Rutherford conclude that the atom was mostly empty space?
Rutherford deduced that an atom is mostly empty space because most alpha particles in his experiment passed through the gold foil unabated; only a few particles deflected due to the presence of a small, dense, positively charged nucleus.
Rutherford concluded that the atom was mostly empty space based on his gold foil experiment. He observed that the vast majority of the alpha particles passed through the gold foil without deflection, indicating that they encountered no significant obstacle, hence most of the atom was empty space. A very small number of alpha particles were deflected at large angles, and even fewer were deflected straight back, which suggested that they interacted with something very small and with a substantial positive charge and mass. This led Rutherford to propose the nucleus, a tiny, dense center within the atom composed of protons and neutrons. He surmised that the electrons orbit this nucleus, much like planets around the sun, in what is known as the planetary model of the atom.
How many moles of lithium phosphate are in 77.6 g of this substance?
"What is salt composed of?" Maria wondered. She took a microscope from the cabinet in her science classroom, put some salt on a microscope slide, and focused on the salt. She saw tiny squares on the slide. "I guess salt is made only of crystals:" Maria observed. Is Maria correct in her conclusion?
Answer is: No. Salt, like all matter is composed of atoms.
For example, table salt is sodium chloride mixed with small amount of potassium iodide (KI), sodium iodide (NaI) or sodium iodate (NaIO₃).
Atomic level - sodium chloride (NaCl) has crystal cubic structure (lattice-type arrangement) with ionic bonds. Sodium is cation with charge 1+ and chlorine is an anion with charge 1-.
Macroscopic level - table salt is colorless crystal, soluble in water with high melting and boiling temperature.
Number of atoms in 5.40gB
To calculate the number of atoms in 5.40g of Boron, we first convert grams to moles using Boron's atomic weight, resulting in 0.5 moles. Then, using Avogadro's number (6.022 x 10²³ atoms/mole), we can find the number of atoms. Hence, 5.40g of Boron contains approximately 3.011 x 10²³ atoms.
Explanation:The number of atoms in 5.40g of Boron (B) can be found by first determining the number of moles. Boron's atomic weight is approximately 10.81 g/mol. Therefore, 5.40g of Boron would consist of 0.5 moles.
Next, using Avogadro's number (approximately 6.022 x 10²³atoms/mole), used to convert moles to atoms, we can find out the number of atoms.
Therefore, 5.40g of Boron contains approx 3.011 x 10^23 atoms.
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Please help quickly!! Will give brainiest to the first correct answer when I can!
Which of the following pairs of elements would most likely form a salt? (Not C)
A. Ca and Br
B. H and He
C. Cl and Fl
D. Na and Ca