36.5 g [tex]CO_2[/tex] will be produced if 135 grams [tex]ZnO[/tex] is completely reacted.
First, Write a Balanced Equation
[tex]C+2ZnO[/tex] → [tex]Co_2 +2Zn[/tex]
According to Avogadro's Law, "identical volumes contain equal quantities of molecules." This indicates that, in contrast to solids and liquids, gases have additive volumes. The mole-fraction-weighted average molecular weight is calculated by adding the molecular weights of each component. Of course, the mole fractions and the volume fractions are the same (E.V.E.N. principle.)
According to a scale where the atomic masses of hydrogen, carbon, nitrogen, and oxygen are 1, 12, 14, and 16, respectively, molecular weight is the total of all the atomic masses of the atoms that make up a molecule. For instance, water has a molecular weight of 18 (2 + 16), which is made up of two hydrogen atoms and one oxygen atom. likewise known as molecular mass.
We know,
MW of [tex]ZnO[/tex] = 81.41 g
MW of [tex]CO_2[/tex] = 44.01 g
So, amount of [tex]CO_2[/tex] will be produced,
[tex]\frac{135*44.01}{81.41} = 36.5 g[/tex]
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we mixed 30 ml of 1.0 m hcl with 70 ml of 1.0 m naoh. what is the theoretical value for the temperature increase? express your answer in
The theoretical value for the temperature increase would be negligible, as the reaction between hydrochloric acid (HCl) and sodium hydroxide (NaOH) is exothermic but also dilute.
When HCl and NaOH are mixed together, they react to form water and salt (sodium chloride). This reaction is exothermic reaction, which means it releases heat. However, because the solutions are dilute (1.0 M), the amount of heat released will be small and may not be measurable. Additionally, the heat released during the reaction would be quickly dissipated due to the small volume of the solutions. Thus, the theoretical temperature increase would be negligible.
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Your question seems incomplete, but I suppose the question was:
"we mixed 30 ml of 1.0 m hcl with 70 ml of 1.0 m naoh. what is the theoretical value for the temperature increase?"
which purpose is most used for tlc method?
a. Identification
b. Makes the eluent more polar
c. neutral or acid
d. slightly sour
Makes the eluent more polar is the correct option.this is the purpose which is most used for TLC method.TLC means thin-layer chromatography.
Non-volatile mixtures can be separated using the chromatography technique known as thin-layer chromatography (TLC). A sheet of an inert substrate, such as glass, plastic, or aluminum foil, is used for thin-layer chromatography. This substrate is covered with a thin layer of an adsorbent material, often silica gel, aluminum oxide (alumina), or cellulose. To elute more strongly retained solutes, an increase in eluent strength is necessary. RP-HPLC (raise organic, create more non-polar) (increase organic, make more non-polar). NP-HPLC (increase solvent to make more polar) (increase solvent to make more polar) For many separations, eluent strength gradients (gradual changes) are utilized. When polar compounds are induced to be more attracted to the mobile phase by a moderately polar eluent, the equilibrium shifts and the compound spends more time in the mobile phase, increasing the R f.
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which of the following compounds has the lowest normal boiling point? a. ch3ch2ch2f b. ch3ch2ch2nh2 c. ch3ch2ch2oh d. ch3ch(oh)ch3 e. ch3ch2cooh
Among the compounds listed, a) CH3CH2F has the lowest intermolecular forces, meaning it has the lowest boiling point.
This is because the fluorine atom has the smallest atomic radius, meaning it has the weakest dipole-dipole interactions.
The other compounds (CH3CH2NH2, CH3CH2CH2OH, CH3CH(OH)CH3, and CH3CH2COOH) all have higher boiling points due to the fact that they have larger atomic radii, resulting in stronger dipole-dipole interactions.
This is because the fluorine atom is the smallest in size and has the strongest intermolecular force, thus giving it the lowest boiling point.
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You expect to have 49.2 g of KCl but only make 37.5 g of KCl. What is the actual yield?
Strategy:
Use the mole ratio and find the number of moles of oxygen formed by 6 moles of potassium chlorate. 6 moles of KClO3 (735.3 grams of KClO3) produce 9 moles of O2 gas. Technically, this is the theoretical yield, but the answer becomes more useful when you convert moles to grams.
A phylogenetic tree constructed from gene sequence data is based on similarities in:
A) biochemical pathways.
B) ecological and habitat similarities.
C) morphology.
D) nucleotide substitutions in homologous genes.
E) patterns of embryological development.
A phylogenetic tree constructed from gene sequence data is based on similarities in, the correct option is (D) nucleotide substitutions in homologous genes.
Phylogenetic tree are constructed from gene sequence data by comparing the sequences of homologous genes (genes that have a similar function and evolutionary origin) from different organisms. The similarities and differences in the nucleotide sequences of these genes are used to infer evolutionary relationships among the organisms. The tree is built based on the principle of common descent, which states that organisms that share a common ancestor will have more similar gene sequences than those that do not. By comparing the sequence similarities and differences, it is possible to infer the evolutionary relationships among different organisms and construct a branching diagram, known as a phylogenetic tree, that illustrates these relationships.
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How many moles of Pb3O4 are produced from 1. 25 moles of oxygen? (show explanation/work if possible so I can better understand)
2.5 moles pf pb3O4 are produced from 1.25 moles of oxygen
The reaction is shown below.
6PBo+ O2------> 2 PB3O4
here 1 mole of O2(oxygen) -----> 2 moles PB3O4
1 for 1.2 moles of O2------> ?(x)
x= 1.2* 2/ 1
x= 2.5 moles of PB3O4
As the amount of reactants increases, the molecular distance between the reacting particles decreases, increasing the likelihood of subsequent collisions. The four key variables that influence reaction rate are reactant concentration, the reactants' physical state, surface area, temperature, and the presence of a catalyst. The disproportionately significant increase in the frequency of high energy collisions causes an increase in reaction rates as temperature rises.
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2. A. If 34. 5 g of Copper reacts with 70. 2 g of silver nitrate, according to the following reaction, what is the maximum number of grams of silver that can be produced? B. How much excess reactant will remain?
44.59844.6 g of silver metal will be deposited when the reaction is fully completed.
Weight of Ag metal contained in 70.2 g of AgNO3 = 108/170 x 70.2 = 44.598 g Equivalent mass of Copper = 63.54/2= 31.77 g Equivalent mass of Silver(Ag)= 108/1
[From the aforementioned information, we learn that AgNO3 is the LIMITING AGENT]
As a result, 44.59844.6 g of silver metal will be deposited when the reaction is fully completed.
[Note: When one equivalent mass of copper, or 31.77 g, dissolves in the solution, one equivalent mass of silver, or 108 g, is deposited at the cathode.
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1.) Uranium is breaking down at a half-life rate of 10 minutes. It begins this decay at a mass of 48g and it takes 78 minutes to complete. How much Uranium is left after decay?
2.) Ra-226 has a half-life of 1,600 years. 14.0g of it takes 300 years to decay. What quantity is left after 300 yr?
3.) The half-life of Po-218 is 3 minutes. After 15 minutes Po-218 is finished decaying and there is only 0.625g left. How much Po-218 did you start with?
4.) A 32g sample of Curium-247 will break down in 6 half lives to make 0.5g of it. It has a half-life of 1.5 million years. How long does this take? Slide 13.
Show all Work and solve by using this Forumla:
N(t) = No(1/2) t/ t 1/2
Calculate for H to find the amount of half-lives before solving for N values.
The half life of uranium is 10 minutes. Then, the 48 g of uranium sample will decay to 0.21 g after 78 minutes.
What is radioactive decay ?Heavy unstable radioactive isotopes undergo nuclear decay by the emission of charged particles. The nuclear decay is a first order reaction.
thus, decay constant k = 1/t ln W0/Wt.
The half life time of the sample = 10 minute.
decay constant = 0.693/ t1/2
k = 0.693/10 = 0.069 min⁻¹
then,W0 = 48 g
we have to find the amount Wt.
time of decay t = 78 min
ln 48 g/Wt = 0.069 min⁻¹ × 78 min
Wt = 0.12 g.
Therefore, the mass of uranium sample left after the decay will be 0.12 g.
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Would you expect an Olympic swimmer to need more or less food
energy every day than you do? Explain why.
Yes, an Olympic swimmer to need more food energy every day than we do.
Why do swimmers need energy?
Swimmers need energy to fuel their bodies for intense physical activity. Swimming is an anaerobic and aerobic exercise, both of which require energy to be used efficiently. Swimmers typically need to consume carbohydrates before and during their workouts for sustained energy, as well as protein to help their muscles repair and rebuild. Eating a balanced diet that is high in carbohydrates and proteins will help swimmers stay energized and perform their best.
An Olympic swimmer would need more food energy every day than the average person because they need more energy to train and compete. Swimming is an intense physical activity that requires a lot of energy and endurance. Olympic swimmers must swim for hours each day, working hard to reach their peak performance. As a result, they would need more food energy to fuel their bodies for the strenuous physical activity.
Therefore, an Olympic swimmer to need more food energy every day than we do.
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During the light reactions water is oxidized to O2. Where do the hydrogens go?
A. Used in the reduction of NADP+
B. Used in the synthesis of ATP by chemiosmosis
C. Diffuse out of the chloroplast and unite with O2 to form H2O
D. A and B
E. A, B and C
During the light reactions water is oxidized to O2. hydrogen go to Used in the reduction of NADP+.
The photolysis process, sometimes referred to as the light reaction, occurs when light is present. Typically, it occurs in the chloroplasts' grana. Pigment molecules are present in photosystems. One of the key pigments in plants that actively participates in light-related processes like photosynthesis is chlorophyll. In the chloroplast of the mesophyll cells of the leaves, a light-dependent process takes place. The stacked disc-like structures known as thylakoids make up the double-membraned cell organelles known as chloroplasts. The membrane of these thylakoids contains the pigment chlorophyll, which is necessary for the process and is where the light reaction takes place.
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solvent choice is an important factor in planning a synthesis. which solvent(s) below can be used to generate this and only this product?
The solvents used to generate this and only this product are DMF, DMSO, i-PrOH.
1-bromopropane reacts with sodium propan-2-olate to form 1-isopropoxypropane. The mechanism of this reaction follows SN2 pathway.
Polar aprotic solvents like DMF, DMSO favors SN2 reaction and provides an ease to carry the reaction.
If the nucleophile is dissolve in less polar solvent, then SN2 reaction goes faster to form required product.
The nucleophile sodium propan-2-olate is dissolve in less polar solvent i-propanol (i-PrOH).
Thus, the solvents used to generate the only product are shown below:
DMF (dimethyl formamide)
i-PrOH (iso-propanol)
DMSO (dimethyl sulfoxide)
The synthesis reaction is given in the image.
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Which position has the most kinetic energy?
1
2
3
4
Kinetic energy is the energy an object possesses due to its motion. The amount of kinetic energy an object has is directly proportional to the mass of the object and the square of its velocity.
Without any specific information about the mass of the object or its velocity at each position, it's impossible to determine which position has the most kinetic energy. The kinetic energy will depend on the mass and velocity of the object at each position, and without that information it's impossible to compare the kinetic energy of each position.
a cell undergoing aerobic metabolism is fed with glucose labeled with 14c. assuming this is the sole source of carbon for the tca cycle, what percentage of co2 produced by the cell would be labeled with 14c after two turns of the tca cycle? assume that the cycle is primed with unlabeled oxaloacetate
The TCA cycle, also known as the Krebs cycle or citric acid cycle, is a series of chemical reactions that occurs in the mitochondria of cells.
It is a key component of aerobic metabolism, as it generates energy in the form of ATP from the breakdown of glucose and other fuels.
When glucose labeled with 14C is fed to a cell undergoing aerobic metabolism and becomes the sole source of carbon for the TCA cycle, the cycle will incorporate the 14C label into the molecules produced during the cycle.
The TCA cycle involves a series of 8 reactions, in which one molecule of acetyl-CoA enters the cycle, and is converted into 2 molecules of CO2.
Each turn of the TCA cycle will convert 1 molecule of acetyl-CoA into 2 molecules of CO2.
When glucose labeled with 14C is the sole source of carbon for the TCA cycle, 100% of the acetyl-CoA produced from the glucose will be labeled with 14C.
So after the first turn of the TCA cycle, 100% of the 2 molecules of CO2 produced will also be labeled with 14C.
In the second turn of the TCA cycle, one of the two CO2 molecules produced in the first turn will be used to regenerate the unlabeled oxaloacetate.
The other CO2 molecule produced in the first turn will be used to form another molecule of acetyl-CoA, which will again enter the TCA cycle and produce two new molecules of CO2.
So after two turns of the TCA cycle, 50% of the CO2 produced will be labeled with 14C.
This is because one of the two CO2 molecules produced in the first turn will be used to regenerate the unlabeled oxaloacetate, and the other will enter the TCA cycle again.
It's important to note that this is a simplified version of the TCA cycle, in reality, different cells have different levels of metabolic flux and different mechanisms that might contribute to the dilution of the labeled molecules.
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the atmospheric pressure on the surface of venus is 6.84 x 10^4 mmhg. calculate the atmospheric pressure in atm and torr. round your answer to 3 significant digits
The atmospheric pressure on the surface of Venus is 6.84 × 10⁴ mmHg in atm and torr is :
6.84 × 10⁴ mmHg = 0.67 atm6.84 × 10⁴ mmHg = 513 torrThe atmospheric pressure is given as:
Atmospheric pressure = 6.84 × 10⁴ mmHg
1 atm (atmospheric pressure) = 101325 pascal (Pa).
To convert the mmHg to atm , divide the pressure value by 101325.
Pressure in atm = 0.67 atm
1 Torr is equals to 133.322 Pa. divide the pressure value by 133.322 to convert it in torr.
Pressure in Torr =513.0 Torr
Thus, pressure in atm is 0.67 atm and the pressure in torr is 513 torr.
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What is the mass of O2 needed when 8.75 * 10^70 molecules of CH4 combust to form CO2?
As a result, when you enter your pertinent values, you get:E = -891 * 1.65 E = -1470.15 kJ.
What is the mass ?The following results are obtained after entering the data into the formula:
((2*-238) + -394)
- [-75 + (2*0)]
H(reaction)=-891 kJ/mol
Now you need to find the kJ value for 1.65 mol.
You use the following standard formula:
Where E is energy expressed in kJ, E is equal to (reaction) * mol.
As a result, when you enter your pertinent values, you get:
E = -891 * 1.65 E = -1470.15 kJ
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in a reaction of an acid that has an equal amount of a base, the ph changes to a value that is closer to
In a reaction of an acid that has an equal amount of a base, the ph changes to a value that is closer to 7 or neutral .
Any solution is considered "neutral" and has a pH of 7 if there is an equal quantity of acid and base present. Because the pH of the neutralised substance is close to or equal to 7, when an acid combines with a base, acid and water are produced. The autoprotolysis reaction, the next equilibrium, serves as the foundation for acid-base behaviour in water.
Reactions to neutralisation, when a strong acid and a strong base are mixed together in the right amounts, [H+] equals [OH], creating a neutral solution with pH of 7, the outcome is. Acidic and basic qualities are no longer existent because the acid and base have neutralised one another. When acid and base are together, a neutralisation reaction occurs where salt and water are created.
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The rate of the reaction was studied at a certain temperature. O(g) + NO2(g) NO(g) + O2(g) (a) In the first set of experiments, NO2 was in large excess, at a concentration of 1. 0 ✕ 1013 molecules/cm3 with the following data collected. Time (s) [O] (atoms/cm3) 0 5. 0 ✕ 109 1. 0 ✕ 10-2 1. 9 ✕ 109 2. 0 ✕ 10-2 6. 8 ✕ 108 3. 0 ✕ 10-2 2. 5 ✕ 108 What is the order of the reaction with respect to oxygen atoms? zero order half order first order second order third order Correct: Your answer is correct. (b) The reaction is known to be first order with respect to NO2. What is the overall rate law? chemPadHelp rate = k. [O]. [NO2] rate = k. [O]. [NO_2] Correct. Determine the value of the rate constant. WebAssign will check your answer for the correct number of significant figures. 3 100. 15 Incorrect: Your answer is incorrect. Cm3/molecules·s
The value of rate constant is 3.33 x 10^-11 cm3/molecules-s. To determine the order of the reaction with respect to oxygen atoms, we can use the data collected in the first set of experiments.
Where NO2 was in large excess. We can use the method of initial rates, where we compare the rates of the reaction at different initial concentrations of O. From the data, we can see that
at t = 1.0 x 10^-2 s, [O] = 1.9 x 10^9 atoms/cm3 and
the rate is k[O]^x[NO2]
, where x is the order of the reaction with respect to O.
At t = 2.0 x 10^-2 s,
[O] = 6.8 x 10^8 atoms/cm3 and
the rate is k[O]^x[NO2].
At t = 3.0 x 10^-2 s,
[O] = 2.5 x 10^8 atoms/cm3 and
the rate is k[O]^x[NO2].
Since the order of the reaction with respect to O is x. for
(b), the reaction is known to be first order with respect to NO2,
so the overall rate law is rate = k[NO2].
To determine the value of the rate constant, we can use the integrated rate law, which is -[O] = kt + [O]0,
Where [O] is the concentration of O at time t,
k is the rate constant and
[O]0 is the initial concentration of O.
Using the data from the first experiment
where t = 3.0 x 10^-2 s and
O] = 2.5 x 10^8 atoms/cm3,
the value of k. -2.5 x 10^8 = k * 3 x 10^-2 + 5 x 10^9.
Solving for k, we get k = 3.33 x 10^-11 cm3/molecules-s.
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What important scientific tool did dmitri mendeleev invent?
Russian chemist Dmitri Mendeleev wrote down the symbols for the chemical elements on February 17, 1869, arranged them in numerical order based on their atomic weights.
and created the modern periodic table. One of history's most illustrious scientists, the Russian chemist Dmitri Mendeleev, passed away 100 years ago this year (1834–1907). His invention of the periodic table in 1869 was a major accomplishment that serves as both a helpful mnemonic and a tool for organizing all of chemistry. The elements were organized by Mendeleev in ascending order of relative atomic mass. He observed a periodic tendency in the chemical characteristics of the elements and their compounds as he performed this.There were no openings for newly found elements in his eight groupings of the elements. The structure for the contemporary periodic table was developed in 1869 by Russian scientist Dmitri Mendeleev, who left spaces for elements that had not yet been identified.
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What is the water referred to as in a solution of a carbonated beverage
Answer: It is described as a solvent
Explanation: I hope this helps!
Answer the following questions about two possible reaction mechanisms for the same reaction.
Determine the overall balanced equation.
What is the role of E2X2 in the reaction mechanism? Explain your reasoning.
Explain why Reaction Mechanism 1 is less likely to occur in terms of the collision theory.
For Reaction Mechanism 2, determine the rate law of the reaction based on the rate determining step of the reaction mechanism
An elimination reaction having two possible reaction mechanisms i.e, E₁ and E₂ mechanisms.
It is a type of reaction which is mainly used to transform saturated compounds (organic compounds which contains only single C-C bonds) to unsaturated compounds (compounds which feature double or triple carbon-carbon bonds).
Mechanism of elimination reaction: 1) Removal of proton 2) Formation of C-C pi bond 3) Removal of leaving group.
E₁-Reaction: It s also known as unimolecular elimination, They are having two steps-ionization and deprotonation. During the ionization, there is a formation of carbocation as an intermediate. In deprotonation, a proton will be lost by the carbocation. This will happen in the presence of a base which further leads to the formation of a pi-bond in the molecule. It exhibits first-order kinetics.
E₂-Reaction: E₂ mechanism refers to bimolecular elimination which is basically a one-step mechanism. Here, the C-H as well as carbon-halogen bonds mostly break off to form a new double bond. However, in E₂ mechanism, a base is the part of the rate-determining step. The reaction rate is mostly proportional to the concentrations of both the eliminating agent as well as the substrate. It exhibits second-order kinetics.
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3. Give an example of where a scientist might be: a. accurate but not precise. b. precise but not accurate. c. both precise and accurate.
Give an example of where a scientist might be: a. accurate but not precise. b. precise but not accurate. c. both precise and accurate, are listed below.
What is accurate?
Accuracy is the measure of how closely a measurement resembles the actual or accepted value. How closely two measurements of the same thing differ is referred to as precision.
What is precise?
The precision of an object is defined as the similarity between two or more measurements. If you weigh an object five times and it weighs 2 kg each time, the measurement has precision but not necessarily accuracy, or it might be the other way around.
Therefore, Give an example of where a scientist might be: a. accurate but not precise. b. precise but not accurate. c. both precise and accurate, are listed below.
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a. Accurate but not precise:
An example of a scientist being accurate but not precise could be a situation where a scientist measures the boiling point of a substance and obtains a series of measurements consistently close to the accepted value but with a wide range of variation among the measurements. Although the measurements may not be precise (due to the variability), they are accurate because they are close to the true value.
b. Precise but not accurate:
An example of a scientist being precise but not accurate could be a scenario where a scientist uses a faulty instrument to measure the length of an object. The measurements obtained may consistently show the same value (high precision) but differ significantly from the actual length (low accuracy). In this case, the measurements are precise (consistent) but not accurate (far from the true value).
c. Both precise and accurate:
An example of a scientist being both precise and accurate could be a situation where a scientist measures the weight of an object using a highly calibrated and accurate weighing scale. The scientist obtains several measurements that are all very close to each other (high precision) and also very close to the true weight of the object (high accuracy). In this case, the measurements are both precise and accurate, indicating a high level of reliability and validity.
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if a burst of light described above had a total energy of 4.50 kj, how many moles of electrons can be released
If a burst of light had a total energy of 4.50 kJ, it can release 0.0468 moles of electrons.
This number is calculated by dividing the total energy by the energy per mole of electrons, which is equal to the Faraday constant (96,485 C/mol). In this case, the answer is approximately 0.0468 moles of electrons.
The Faraday constant is a measure of the amount of electrical charge that is released when one mole of electrons is passed through an electrical circuit.
This constant is important because it allows us to calculate how many moles of electrons can be released when a certain amount of energy is present.
By dividing the total energy of 4.50 kJ by the Faraday constant, we can determine the number of moles of electrons that can be released.
Although a part of your question is missing, you might be referring to this question:
A burst of light is being emitted through a photon.
If a burst of light described above had a total energy of 4.50 kj, how many moles of electrons can be released?
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Which atmospheric gases absorb more than one type of light?
Carbon dioxide and methane are the atmospheric gases which absorbs more than one type of electromagnetic radiations or light.
What is electromagnetic radiation?The electromagnetic radiation consists of waves made up of electromagnetic field which are capable of propogating through space and carry the radiant electromagnetic energy.
The radiation are composed of electromagnetic waves which are synchronized oscillations of electric and magnetic fields . They are created due to change which is periodic in electric as well as magnetic fields.
In vacuum ,all the electromagnetic waves travel at the same speed that is with the speed of air.The position of an electromagnetic wave in an electromagnetic spectrum is characterized by it's frequency or wavelength.
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Which atom gives up its electrons most easily?
Answer: Caesium
Explanation:
Caesium has the lowest ionization energy. With the lowest ionization energy, it is the one that will most easily give up electrons.
Answer: cesium
Explanation:(cs)
if the kinetic and potential energies of a liter of oxygen molecules are 250 j and 1200 j, respectfully, the liter is most likely to be in what phase according to the passage?
If the kinetic and potential energies of a liter of oxygen molecules are 250 j and 1200 j, respectfully, it is likely that the liter of oxygen molecules is in a gaseous phase.
According to the passage, the kinetic and potential energies of a liter of oxygen molecules are 250 J and 1200 J, respectively. Kinetic energy is the energy of motion, and potential energy is the energy stored in an object due to its position or configuration. Therefore, it is likely that the liter of oxygen molecules is in a gaseous phase. Gases have high kinetic energy and relatively low potential energy because their molecules are in constant motion and have more distance between them, resulting in weaker intermolecular forces. It's worth noting that the kinetic energy alone is not enough to determine the phase of the substance, as it can be in any of the three states of matter (solid, liquid, and gas) and the potential energy alone is not enough as well. The phase of the substance can be determined by comparing the kinetic and potential energies, and other thermodynamic parameters such as temperature, pressure, and volume.
So, based on the given information the liter of oxygen molecules is most likely to be in gaseous phase.
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What is the solubility of calcium sulfate (CaSO4) in 0. 30 M aqueous sodium sulfate (Na2SO4)? (Ksp of calcium sulfate = 2. 0 x 10^-5
The solubility product constant (Ksp) of calcium sulfate (CaSO4) and the idea of ion product may be used to determine the solubility of calcium sulfate (CaSO4) in 0.30 M aqueous sodium sulfate.
(Na2SO4). The calcium ion (Ca2+) concentration in the solution. may be estimated as follows: [Ca2+][SO42-] = Ksp [Ca2+][SO42-] = 2.0 x 10^-5 When there is sodium sulfate present, part of the sulfate ions will originate from the sodium sulfate rather than the calcium sulfate. The total sulfate ion concentration (SO42-) in the solution may be determined as follows [SO42-] = [Na2SO4] + [CaSO4] + x = 0.30 M (where x is the concentration of CaSO4) When we enter the values into the Ksp expression, we get: 2.0 x 10^-5 = [Ca2+] [0.30 M + x] x [0.30 M + x] = [Ca2+] x [0.30 M + x] [Ca2+] = (2.0 x 10^-5) / (0.30 M + x) We may substitute [Ca2+] in the Ksp equation since [Ca2+] = [CaSO4]: ([CaSO4])2 / (0.30 M + [CaSO4]) = 2.0 x 10-5 This equation may be solved for [CaSO4,] which yields the calcium sulfate solubility in 0.30 M aqueous sodium sulfate solution.
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The improvement of energy efficiency in the United States is important. Which scenario is least
likely to occur due to improved energy efficiency in the United States?
O Allow more time to improve use of renewable resources.
O Increase environmental problems.
Make nonrenewable resources last longer.
Reduce dependence on other countries.
Answer:
increase environmental problems
2 nh3 3 cuo g 3 cu n2 3 h2o in the above equation how many moles of n2 can be made when 42 moles of cuo are consumed?
The balanced equation for the reaction is: 2 NH3 + 3 CuO ---> 3 Cu + 3 H2O + N2, when 42 moles of CuO are consumed, 14 moles of N2 can be made.
From this equation, we can see that for every 3 moles of CuO that are consumed, 1 mole of N2 is produced.
To find the number of moles of N2 that can be made when 42 moles of CuO are consumed, we can use the stoichiometry of the reaction. We can use the following formula:
moles of product = moles of reactant x (moles of product / moles of reactant)
In this case, we can use the following equation to find the number of moles of N2 that can be produced:
= moles of N2
= 42 moles x (1 mole N2 / 3 moles CuO)
= 14 moles of N2
So, when 42 moles of CuO are consumed, 14 moles of N2 can be made.
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Hot lead with a mass of 200. 0 g of (Specific heat of Pb = 0. 129 J/g˚C) at 176. 4˚C was dropped into a calorimeter containing an unknown volume of water. The temperature of the water increased from 21. 7˚C to 56. 4˚C. What mass of water is in the calorimeter?
The mass of water in the calorimeter is 7.98 g when The temperature of the water is increased from 21. 7˚C to 56. 4˚C.
We can use the equation Q = mcΔT to calculate the heat transfer between the lead and the water.
Q is the heat transfer, m is the mass of the substance, c is the specific heat of the substance, and ΔT is the change in temperature.
The heat absorbed by the water is equal to the heat lost by the lead, so we can set the two heat transfer equations equal to each other:
Qwater = Qlead
mwater * cwater * ΔTwater = mlead * clead * ΔTlead
where mwater is the mass of the water, cwater is the specific heat of water (4.184 J/g°C), ΔTwater is the change in temperature of the water, mlead is the mass of the lead (200.0 g), and ΔTlead is the change in temperature of the lead (176.4°C - 21.7°C = 154.7°C)
We can solve for mwater by isolating it on one side of the equation:
mwater = (mlead * clead * ΔTlead) / (cwater * ΔTwater)
mwater = (200.0 g * 0.129 J/g°C * 154.7°C) / (4.184 J/g°C * 35.7°C)
mwater = 7.98 g
So the mass of water in the calorimeter is 7.98 g.
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Element X has 30 protons and is known to exist as 3 isotopes. One isotope is 56.5% abundance and has 38 neutrons. Another isotope is 23.4% and has 39 neutrons. The other isotope is 20.1% and contains 40 neutrons. What is the average atomic mass?
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Answer:
The average atomic mass of element X is 68.719 amu
Step-by-step explanation:
1. To determine the average atomic mass of element X, the atomic masses and abundances of its isotopes must be used.
2. The atomic mass of the first isotope is 68 amu, the second isotope is 69 amu, and the third isotope is 70 amu.
3. To calculate the average atomic mass, the formula is used: Average Atomic Mass = (68amu x 0.565) + (69amu x 0.234) + (70amu x 0.201)
4. Applying the formula, the average atomic mass of element X is 68.719 amu.