The ability of an atom to GAIN
How many moles of oxygen atoms are contained in the following?
1.67 x 10-2mol CuSO4-5 H₂O
The moles of oxygen atoms in 1.67 x 10⁻² mol CuSO₄·5H₂O is found to be approximately 0.1503 moles.
First, we need to determine the total number of oxygen atoms in one formula unit of CuSO₄·5H₂O. The formula CuSO₄·5H₂O contains:
4 oxygen atoms from CuSO₄5 oxygen atoms from 5 molecules of H₂OTherefore, each formula unit of CuSO₄·5H₂O contains a total of 4 + 5 = 9 oxygen atoms.
Next, we calculate the number of moles of oxygen atoms in 1.67 x 10⁻² mol of CuSO₄·5H₂O:
Moles of CuSO₄·5H₂O = 1.67 x 10⁻² molTotal oxygen atoms per mol = 9Moles of oxygen atoms = (1.67 x 10⁻² mol) x 9 = 0.1503 molThus, the number of moles of oxygen atoms in 1.67 x 10⁻² mol CuSO₄·5H₂O is 0.1503 moles.
i need the answer to 10 please help
. which of these statements is about reaction rate is accurate
A. All chemical reactions occur at a fast rate.
B. All chemical reactions occur at a slow rate.
C. All chemical reactions occur at different rates.
D. All chemical reactions occur at the same rate.
Tissues combine to form Blank Space __________.
A.organisms
B.organs
C.organ systems
D.cells
Select the sentence that best describes why copper and some other metals are good conductors.
Answer
Copper atoms have loosely held electrons; this means they can freely move in and out of the nucleus of the atom.
Copper atoms have a loosely held free electron in their outer shell that is able to move freely to other atoms.
Copper and some other metals have highly active inner shells. This means that electrons can be freely exchanged between shells.
Copper has a small number of electrons; this means it can easily shed these electrons and take electrons from other atoms.
...?
Answer: Option (b) is the correct answer.
Explanation:
Electronic configuration of copper is [tex][Ar]4s1 3d^{10}[/tex] and copper is known as the best conductor of heat and electricity.
This is because in copper there is availability of free electrons in its valence shell (outermost shell).
And, as it is known that electricity is the flow of electrons. This means that since copper metal contains a number of free electrons. Hence, it can easily conduct electricity.
Thus, we can conclude that copper and some other metals are good conductors because copper atoms have a loosely held free electron in their outer shell that is able to move freely to other atoms.
Balance: (NH4)2CO3-->NH3+H2O+CO2 ...?
Is matter lost when a candle is burned
Does acetylene, C2H2 have a linear shape and the bond angle of 180º?
What is the definition of heat?
density of gold is 19.3 g/cm^3 what is the mass of nugget that has a volume 1.47cm^3
Answer:
28.372 grams is the mass of nugget.
Explanation:
Density is defined as mass of the substance present in unit volume of the substance.
[tex]Density=\frac{Mass}{Volume}[/tex]
Mass of gold nugget = m
Volume of gold nugget = V =[tex] 1.47 cm^3[/tex]
Density of the gold = [tex]d=19.3 g/cm^3[/tex]
[tex]m=d\times V=19.3 cm^3\times 1.47 cm^3=28.372 g[/tex]
28.372 grams is the mass of nugget.
IN A CHEMICAL CHANGE DOES THE ORIGINAL SUBSTANCE DISSAPPEAR ...?
A 14.01 g sample of N2 reacts with 3.02 g of H2 to form ammonia (NH3). If ammonia is the only product, what mass of ammonia is formed?
Exactly one mole of an ideal gas is contained in a 2.00-liter container at 1,000 K. What is the pressure exerted by this gas?
Given: R = 0.08205 L · atm/K · mol
Answer : The pressure of the gas is, 41.025 atm
Solution :
Using ideal gas equation :
[tex]PV=nRT\\\\P=\frac{nRT}{V}[/tex]
where,
n = number of moles of gas = 1 mole
P = pressure of the gas = ?
T = temperature of the gas = 1000 K
R = gas constant = 0.08205 L.atm/mole.K
V = volume of gas = 2.00 L
Now put all the given values in the above equation, we get the pressure of the gas.
[tex]P=\frac{nRT}{V}[/tex]
[tex]P=\frac{1mole\times (0.08205L.atm/mole.K)\times 1000K}{2.00L}[/tex]
[tex]P=41.025atm[/tex]
Therefore, the pressure of the gas is, 41.025 atm
The wavelength of a certain beam of light was [tex]3.52 x 10^-^7[/tex].
Calculate how much energy this light has.
group 7a of the periodic table contains the most or least reactive elements
Which change takes place in a nuclear fusion reaction?
A) Matter is converted to energy.
B) Energy is converted to matter.
C) Ionic bonds are converted to covalent bonds.
D) Covalent bonds are converted to ionic bonds.
Answer:
Matter is converted to energy.
Explanation:
In a chemical reaction we consider that matter is conserved.It means in a chemical reaction the amount of matter on the reactant side is equal to the amount of matter on the product side.
However in case of nuclear reaction the matter gets converted to energy and thus there is loss of matter. Due to this conversion of matter into energy high amount of energy is associated with the nuclear reactions.
There is no change of ionic bond to covalent or vice versa.
Students in Mr. Klein’s chemistry class are conducting an experiment to calculate the specific heat of a copper sample. Mr. Klein requires each lab team to repeat the experiment until their percent error is 2% or less. Percent error is calculated using observed values (those students calculate from their lab results) and the true value (the accepted value based on reference). The formula for percent error is: (observed – true) x 100 true If the accepted value for the specific heat of copper is 0.385 J/g°C, which of the following lab teams have an unresolved problem on their hands
a.
team 1: calculates 0.392 J/gºC
b.
team 2: calculates 0.395 J/gºC
c.
both teams
d.
neither team
Final answer:
Team 2 has a percent error greater than 2% with their specific heat calculation of copper, while Team 1's percent error is within the acceptable range. Thus, Team 2 has an unresolved problem regarding their experiment.
Explanation:
To determine which lab teams have an unresolved problem based on their calculation of the specific heat of copper, we first need to calculate the percent error using the given formula:
Percent error = ((observed - true) × 100) / true
Where 'observed' is the experimental value and 'true' is the accepted value.
The accepted value for the specific heat of copper is 0.385 J/g°C. We can now calculate the percent error for each team:
Team 1: ((0.392 - 0.385) × 100) / 0.385 = approximately 1.82%Team 2: ((0.395 - 0.385) × 100) / 0.385 = approximately 2.60%Team 1 has a percent error within the 2% limit set by Mr. Klein, while Team 2 has exceeded it. Therefore, the answer is:
b. team 2: calculates 0.395 J/gºC
A teacher makes the following statement.
“Gasoline boils at a relatively low temperature (about 150°C). The kerosene is removed at around 200°C, followed by diesel oil at 300°C and fuel oil at around 370°C.”
What topic is the teacher most likely talking about?
a. distillation of a mixture
b. filtration of a pure substance
c.evaporation of a mixture
d. sorting of a pure substance
Answer:
The correct answer is option a.
Explanation:
According the question, boiling points of different liquids are discussed which means that if we take all these liquids in single mixture we can separate them from each other on the basis of their difference in boiling point. And the technique which employs this principle is distillation process.
Hence, we can say teacher is most likely talking about distillation of a mixture of oils.
Distillation is a process which is used to separate mixture of different liquids from each other. In this process, during the course of boiling of mixture liquid compound with lower boiling points vaporizes first leaving behind the liquid with higher boiling point behind.
And vapors of boiled liquid are condensed down in a separate container for the collection.
sa solution is made by dissolving 26.42 g of (NH4)2SO4 in enough H2O to make 50.00 mL of solution. what is the molarity of the solution
Molarity is a measure of the concentration of solute in a solution
c = n ÷V
c - concentration of solute,
n - number of moles of solute
V - volume of solution
We know:
V = 50.00 mL = 0.05 L
c = ?
n = ?
Let's calculate concentration:
c = m/(V * Mr)
what is the main energy conversion that occurs when you plug in a lamp
Answer:
Electric energy conservation which converts into heat and light
Explanation:
The transformation of energy from one form energy into another form, and throughout this conversion, the energy that we give to a device will comes out. However, the energy that is given may or may not coming out in the required form.
For example, we plug in a lump means we give an electrical energy into a lamp and the lamp produces light, but we also get heat energy from the lamp(it is the form of energy which is undesirable coming from a lamp).
1.15 g of a metallic element reacts with 300 cm3 of oxygen at 298 K and 1 atm pressure, to form
an oxide which contains O2– ions.
What could be the identity of the metal?
A calcium
B magnesium
C potassium
D sodium
Which of the following two cycles are the most closely related in their role in sustaining life?
a. carbon and nitrogen
b. water and nitrogen
c. carbon and oxygen
d. nitrogen and phosphorus please select the best answer from the choices provided a b c d
Answer: d. nitrogen and phosphorus
Nitrogen and phosphorus are important component of the genetic material present in the living organism, required for the expression of genes to perform a desire function in the living organisms. Both nitrogen and phosphorus are chief ingredients of the fertilizers required for the plant growth. Hence, nitrogen and phosphorous are two cycles that are most closely related in their role in sustaining life.
Which statement best describes the effect of low ionization energies and low electronegativities on metallic bonding?
The valence electrons are easily delocalized.
The valence electrons stay in a single orbital.
The valence electrons break free of the crystals.
The valence electrons move closer to the nuclei.
Answer:
the valence electrons are easily delocalized.
Explanation:
How many moles of each element 19.5g platinum
Consider the equation CaF2 + H2SO4 → CaSO4 + 2 HF. What type of reaction is this?
A. synthesis
B. decomposition
C. single displacement
D. double displacement ...?
The reaction between CaF2 and H2SO4 to form CaSO4 and HF is a double displacement reaction, where two compounds exchange ions.
Explanation:The reaction CaF2 + H2SO4 → CaSO4 + 2 HF is an example of a double displacement reaction. In this type of reaction, two compounds exchange ions or other groups to form two new compounds. In this particular reaction, CaF2 and H2SO4 trade their anions, resulting in the formation of CaSO4 and HF. Another name for this type of reaction is a metathesis reaction. It is important to note that this reaction is different from a synthesis, decomposition, or single displacement reaction.
Which is the second step in the dissolving process?
The solute is mixed with the solvent.
The solute ions are carried into the solution.
The solvent molecules surround the solute particles.
The solvent molecules are attracted to the surface of the solute particles.
Answer : The correct option is, The solvent molecules surround the solute particles.
Explanation :
Dissolving process : It is defined as the process in which solute particles interact with solvent molecules.
When solute particles comes in contact with the solvent particles, firstly the solute particles break down into ions and this result in the Lattice energy of the solute particles.
When solute particles break down, it gets surrounded with the solvent particles and it results in the Hydration enthalpy of the particles.
Hence, the second step of dissolving process is when solvent molecules surround the solute molecules.
Answer:
c
Explanation:
the answer befor me is corect
Explain how conduction can increase the temperature of the air above Earth's surface. ...?
The temperature of the air above Earth's surface is mainly increased through convection, where warm air becomes less dense and rises, getting replaced by cooler air in a cycle. Conduction is inefficient over large distances, and radiation also contributes to heat transfer in the environment.
Explanation:Conduction is the process where heat is transferred through direct contact between materials, but conduction alone is not very efficient for warming the air above Earth's surface over large distances or in short times. Instead, the increase in air temperature is largely due to convection. This process involves the movement of warm air upward as it becomes less dense when heated, creating buoyant forces. As the warmer air rises, it is replaced by cooler air from surrounding areas, which then gets heated by the Earth's surface. In this way, convection creates a cycle that effectively distributes heat throughout the atmosphere.
Another form of heat transfer that plays a role in the earth's atmosphere and engine cooling is radiation. Radiation is the emission of energy as electromagnetic waves, which can transfer heat without the need for a medium. This is why we experience warmth from the sun even though there is a vacuum of space between the Earth and the sun.
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Conduction is less efficient for warming the atmosphere and is surpassed by convection, where warm air rises due to decreased density as it heats, creating a cycle that distributes heat in the atmosphere.
Explanation:Conduction can increase the temperature of the air above Earth's surface through the process where heat is transferred through the direct contact of atoms and molecules. However, it is relatively inefficient for heating the atmosphere significantly because conduction is not effective over large distances and short time frames. Instead, the warming of the air is primarily the result of convection currents: warm air heated at the surface expands, becomes less dense, and rises, being replaced by cooler air that gets heated in turn. This creates a circulation pattern that helps distribute heat. It is due to the natural convection driven by buoyant forces that large-scale atmospheric circulation and ocean currents transfer heat around the globe, NOT primarily through conduction.
Wind is caused by which type of heat transfer? Radiation/conduction/or convection
Wind is primarily created by the process of convection, which is the macroscopic movement of air due to differences in temperature. Warm air rises and cool air sinks, leading to the movement of air known as wind. Conduction and radiation, although also types of heat transfer, do not predominantly contribute to the formation of wind.
Explanation:Wind is primarily caused by convection, which is one of the three types of heat transfer, including conduction and radiation. In the context of our atmosphere, convection is the movement of layers of air due to differences in temperature.
Essentially, warm air, being lighter, rises and cool air, being heavier, sinks. This continuous cycle of heating, rising, cooling and falling gives rise to winds, in an effort to equalize global temperatures. An example of this heat transfer can be seen in weather systems. The movement of air mass creating winds is a product of such convection currents.
It's important to differentiate between this and the other types of heat transfer. For instance, conduction is heat transfer through direct contact of two objects, while radiation is heat transfer through electromagnetic waves, neither of which primarily contributes to the creation of wind.
Learn more about Convection here:https://brainly.com/question/4138428
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Use VSEPR theory to predict bond angles in the following covalently bonded molecules. Explain your predictions.
a. methane
b. ammonia
c. water
Answer: Bond angle for methane is 109.5°,Bond angle for ammonia is 107° and Bond angle for water is 104.5°
: [tex]Formula used :{\text{Number of electrons}} =\frac{1}{2}[V+N-C+A][/tex]
where, V = number of valence electrons present in central atom
N = number of monovalent atoms bonded to central atom
C = charge of cation
A = charge of anion
a. Methane:[tex]CH_4[/tex]
In the given molecule, carbon is the central atom and there are 4 Hydrogens as monovalent atoms.
[tex]Formula used :{\text{Number of electrons}} =\frac{1}{2}[4+4-0+0]=4[/tex]
The number of electrons is 4 that means the hybridization will be [tex]sp^3[/tex] and geometry of the molecule will be tetrahedral.The bond angle for terahedral geometry is 109.5°.
b. Ammonia:[tex]NH_3[/tex]
In the given molecule, nitrogen is the central atom and there are 3 Hydrogens as monovalent atoms.
[tex]Formula used :{\text{Number of electrons}} =\frac{1}{2}[5+3-0+0]=4[/tex]
The number of electrons is 4 that means the hybridization will be [tex]sp^3[/tex] and geometry of the molecule will be pyramidal as there are three bond pairs and one lone pair.The bond angle for pyramidal geometry is 107°.the bond angle reduces due to lone pair bond pair repulsions.
c. water :[tex]H_2O[/tex]
In the given molecule, oxygen is the central atom and there are 2 Hydrogens as monovalent atoms.
[tex]Formula used :{\text{Number of electrons}} =\frac{1}{2}[6+2-0+0]=4[/tex]
The number of electrons is 4 that means the hybridization will be [tex]sp^3[/tex] and geometry of the molecule will be bent as there are two bond pairs and two lone pairs.The bond angle for pyramidal geometry is 104.5°.The bond angle reduces further due to greater lone pair-lone pair repulsions.
If Plank's constant is 6.6 x 10(-34) J/Hz, then what is the approximate frequency of a photon having an energy of 3 x 10(-19) Joules?
Final answer:
The approximate frequency of a photon with an energy of 3 x 10⁻¹⁹ Joules is 4.545 x 10¹⁴ Hz, calculated using Planck's equation E = hf.
Explanation:
To calculate the frequency of a photon with a given energy, we use the equation E = hf, where E denotes the energy of the photon, h is Planck's constant, and f is the frequency of the photon. In this question, the energy (E) is given as 3 x 10⁻¹⁹ Joules, and Planck's constant (h) is given as 6.6 x 10⁻³⁴ J/Hz. By rearranging the equation to solve for the frequency, we get f = E/h.
With the supplied values substituted, the computation is as follows:
f = (3 x 10⁻¹⁹ J) / (6.6 x 10⁻³⁴ J/Hz) = 4.545 x 10¹⁴ Hz.
Therefore, the approximate frequency of the photon is 4.545 x 10¹⁴ Hz.