Answer:
B
Explanation:
This is due to the differences in the concentrations of the radioactive isotopes in the two containers of the same volume. In container A, with a higher density of atoms, there is a higher chance of a neutron released in the decay of one atom, hitting another atom and splitting it. This is in comparison to container B that has fewer atoms that are widely dispersed due to the lower density. Atoms in cointainer A will therefore decay faster (shorter half-life) than atoms in container B.
Answer:
b
Explanation:
Write an experiment to show that air exerts pressure in all directions
Answer:
Experiment: Submit a can or plastic bottle with hot, sealed air to a sudden cooling and watch what happens.Explanation:
Air is a mixture of gases (mainly oxygen and nitrogen, but also carbon dioxide, water vapor, and others in minimum amount).
The pressure of the gases is the product of the collisions of the air molecules with the surface of the objects. Since the molecules of gases are in constant, rapid random motion, they are constantly (you may say continously) colliding with the surfaces of the objects in all directions. That explain, why the air exertes pressure in all directions.
There are many experiments that you can perform to show this phenomenum.
You can perform this experiment, for example:
Take an "empty" can or plastic bottle, which you can heat using a source of hot water. You can do this by introducing the can or plastic bottle inside a pan with hot water, avoiding that the water enters into the your object.Once the air inside the can or plastic bottle is hot, remove it from the pan and close it, so that air cannot exit from of enter into it.Pour cold water over the can or plastic.What will you observe?
The can or plastic bottle will collapse.Why does that happen?
Because, when you pour cold water over the can or plastic bottle the air inside will cool down, and as result the air inside it will exert less pressure over the inner walls than the pressure that the air ouside it exerts over the outer walls.Since the pressure is exerted in all the directions, the bottle or can collapse.
1) In saturated limewater, [H+ ]=3.98x10-13 M.
a) Find [OH]-/
b) What is the pH?/
c) Is the solution acidic, basic, or neutral?/
2) In butter, [H+ ]=6.0x10-7 M.
a) Find [OH]-/
b) What is the pH?/
c) Is the solution acidic, basic, or neutral?/
3) In peaches, [OH]=3.16x10-11 M
a) Find [H+ ]/
b) What is the pH?/
c) Is the solution acidic, basic, or neutral?/
4) During the course of the day, human saliva varies between being acidic and basic. If [OH]=3.16x10-8 M,
a) Find [H+ ]/
b) What is the pH?/
c) Is the solution acidic, basic, or neutral?/
Answer:
1) a) [OH⁻] = 0.025 M.
b) pH = 12.4.
c) The solution is basic.
2) a) [OH⁻] = 1.66 x 10⁻⁸ M.
b) pH = 6.22.
c) The solution is acidic.
3) a) [H⁺] = 3.16 x 10⁻⁴ M.
b) pH = 3.5.
c) The solution is acidic.
4) a) [H⁺] = 3.16 x 10⁻⁷ M.
b) pH = 6.5.
c) The solution is acidic.
Explanation:
1) In saturated lime water, [H⁺] = 3.98 x 10⁻¹³ M.
a) Find [OH⁻]
∵ [H⁺][OH⁻] = 10⁻¹⁴.
∴ [OH⁻] = 10⁻¹⁴/[H⁺] = 10⁻¹⁴/(3.98 x 10⁻¹³ M) = 0.025 M.
b) What is the pH?
∵ pH = - log[H⁺].
[H⁺] = 3.98 x 10⁻¹³ M.
∴ pH = - log(3.98 x 10⁻¹³ M) = 12.4.
c) Is the solution acidic, basic, or neutral?
We can determine the nature of the solution, acidic, basic or neutral, from the value of the pH.pH is a scale from 0 to 14.
If pH < 7, the solution is acidic.If pH = 7, the solution is neutral.If pH > 7, the solution basic.∵ pH = 12.4 > 7.
∴ The solution is basic.
2) In butter, [H⁺] = 6.0 x 10⁻⁷ M.
a) Find [OH⁻]
∵ [H⁺][OH⁻] = 10⁻¹⁴.
∴ [OH⁻] = 10⁻¹⁴/[H⁺] = 10⁻¹⁴/(6.0 x 10⁻⁷ M) = 1.66 x 10⁻⁸ M.
b) What is the pH?
∵ pH = - log[H⁺].
[H⁺] = 6.0 x 10⁻⁷ M.
∴ pH = - log(6.0 x 10⁻⁷ M) = 6.22.
c) Is the solution acidic, basic, or neutral?
We can determine the nature of the solution, acidic, basic or neutral, from the value of the pH.pH is a scale from 0 to 14.
If pH < 7, the solution is acidic.If pH = 7, the solution is neutral.If pH > 7, the solution basic.∵ pH = 6.22 < 7.
∴ The solution is acidic.
3) In peaches, [OH⁻] = 3.16 x 10⁻¹¹ M
a) Find [H⁺]
∵ [H⁺][OH⁻] = 10⁻¹⁴.
∴ [H⁺] = 10⁻¹⁴/[OH⁻] = 10⁻¹⁴/(3.16 x 10⁻¹¹ M) = 3.16 x 10⁻⁴ M.
b) What is the pH?
∵ pH = - log[H⁺].
[H⁺] = 3.16 x 10⁻⁴ M.
∴ pH = - log(3.16 x 10⁻⁴ M) = 3.5.
c) Is the solution acidic, basic, or neutral?
We can determine the nature of the solution, acidic, basic or neutral, from the value of the pH.pH is a scale from 0 to 14.
If pH < 7, the solution is acidic.If pH = 7, the solution is neutral.If pH > 7, the solution basic.∵ pH = 3.5 < 7.
∴ The solution is acidic.
4) During the course of the day, human saliva varies between being acidic and basic. If [OH⁻] = 3.16 x 10⁻⁸ M,
a) Find [H⁺]
∵ [H⁺][OH⁻] = 10⁻¹⁴.
∴ [H⁺] = 10⁻¹⁴/[OH⁻] = 10⁻¹⁴/(3.16 x 10⁻⁸ M) = 3.16 x 10⁻⁷ M.
b) What is the pH?
∵ pH = - log[H⁺].
[H⁺] = 3.16 x 10⁻⁷ M.
∴ pH = - log(3.16 x 10⁻⁷ M) = 6.5.
c) Is the solution acidic, basic, or neutral?
We can determine the nature of the solution, acidic, basic or neutral, from the value of the pH.pH is a scale from 0 to 14.
If pH < 7, the solution is acidic.If pH = 7, the solution is neutral.If pH > 7, the solution basic.∵ pH = 6.5 < 7.
∴ The solution is acidic.
_____ is A property is a characteristic of a substance that can be observed and does not change the identity of the substance.
Which activity describes an application of topographic maps? Check all that apply.
recreation, such as camping and hiking
engineering, such as the construction of roads and buildings
science, such as mapping stars in the sky
business, such as analyzing population centers
science, such as analyzing surface features
Answer:
Option (1), (2) and (5)
Explanation:
Topographic maps are those that illustrate the surface features of different areas. It provides detailed information about an area such as the relief, hills, basins, rivers, and mountains and is constructed in both small and large scale. These maps are often used by geographers and geologists to study about any particular area.
In the given question, these topographic maps are used for recreation purposes including camping, hiking that enables them to lead the path. It is also used by the engineering geologist and engineers for the construction of roads and railways, buildings and houses, as the more resistant and reliable surfaces are traced out and used for these purposes. And mostly used by the geologists in order to understand how these surface features like folds, faults, mountains, and valleys have formed and evolved with the increasing time.
Hence the correct answers are option (1), (2) and (5)
Answer:
1,2 and 5
Explanation:
A pan containing 30 grams of water was allowed to cool from a temperature of 90.0 °C. If the amount of heat released is 1,500 joules, what is the approximate final temperature of the water?
A. 76 °C
B. 78 °C
C. 81 °C
D. 82 °C
Answer:
B. 78 °C.
Explanation:
To solve this problem, we can use the relation:Q = m.c.ΔT,
where, Q is the amount of heat released from water (Q = - 1500 J).
m is the mass of water (m = 30.0 g).
c is the specific heat capacity of water (c = 4.18 J/g.°C).
ΔT is the difference between the initial and final temperature (ΔT = final T - initial T = final T - 90.0 °C).
∴ (- 1500 J) = (30.0 g)(4.18 J/g.°C)(final T - 90.0 °C)
∴ (final T - 90.0 °C) = (- 1500 J)/(30.0 g)(4.18 J/g.°C) = - 11.96°C.
∴ final T = 90.0 °C - 11.96°C = 78.04°C ≅ 78 °C.
So, the right choice is: B. 78 °C.
Answer:
78 °C
Explanation:
I took the test and got it correct. hope this helps
Bohr’s model could only explain the spectra of which type of atoms?
bonded atoms with one electron
bonded atoms with more than one electron
single atoms with one electron
single atoms with more than one electron
single atoms with more than one electron
Answer:
Explanation:
Bohr’s model could only explain the spectra of single atoms with one electron.
Bohr’s model:
It shows that the negatively charged electrons orbit the positively charged nucleus in a fixed circular path.
Bohr’s model also known as the planetary model because it resembles as solar system model.Bohr use the Hydrogen spectra to form its model.
Therefore, Bohr’s model could only explain the spectra of single atoms with one electron.
To know more about Bohr’s model:
https://brainly.com/question/4048378
Which of the following is the best explanation why some reactions appear to stop before all the reactants are converted to products?
The reaction goes to completion.
The reaction reaches equilibrium and the products stop being formed.
The reversible reaction occurs at the same rate.
The limiting reactant prevents the forward reaction occurring.
Answer:
I think its The reaction reaches equilibrium and the products stop being formed.
Answer:
Option C is true.
Explanation:
We are given that some reactions appear to stop before all the reactants are converted to products
We have to find the best explanation in given option why some reactions appear to stop before all the reactant are converted to products.
Reverse reaction : It is defined as the reaction in which reactants and products exist in a state of equilibrium.
Rate of froward reaction is equal to rate of backward reaction when the reaction is in equilibrium condition.
The reaction is not actually stop but it appear that the reaction to stop before all the reactants are concerted to products.
Hence, the reversible reaction occurs at the same rate occurs at the rate is best explanation for some reaction appear to stop before all the reactants are converted to products.
Option C is true.
Rank the compounds below from slowest to Fastest rate of hydration. 1) formaldehyde 2) 3,3-dimethyIbutan-2-one 3) propanal 4)3-methylbutan-2-one 5) butan-2-one
The compounds ranked from the slowest to fastest rate of hydration are 3,3-dimethylbutan-2-one, 3-methylbutan-2-one, butan-2-one, propanal, and formaldehyde. Steric hindrance plays a crucial role in determining the reactivity of carbonyl compounds towards nucleophilic hydration reactions.
The rate of hydration for carbonyl compounds, such as aldehydes and ketones, is influenced by their reactivity towards nucleophilic attack. This reactivity is mainly determined by the electron-withdrawing or -donating nature of substituents on the carbonyl carbon and steric effects.
In this context, we can rank the compounds based on their rates of hydration:
Formaldehyde (CH2O): Formaldehyde is the simplest aldehyde, and its high reactivity is attributed to the lack of steric hindrance. The absence of bulky substituents allows nucleophiles to approach the carbonyl carbon easily, resulting in a fast rate of hydration.
Propanal (CH3CH2CHO): Propanal has a moderately reactive carbonyl group. The presence of a linear alkyl chain provides some steric hindrance compared to formaldehyde, slowing down the hydration rate slightly.
Butan-2-one (CH3COCH2CH3): Butan-2-one, also known as methyl ethyl ketone, has a more substituted carbonyl carbon due to the ethyl group. This increased steric hindrance results in a slower rate of hydration compared to propanal.
3-Methylbutan-2-one (CH3COCH(CH3)2): The presence of a branched methyl group in the 3-position introduces additional steric hindrance. This bulky substituent slows down the nucleophilic attack, leading to a slower rate of hydration.
3,3-Dimethylbutan-2-one (CH3COCH(CH3)2CH3): This compound has the highest steric hindrance among the given options due to two methyl groups in the 3-position. The bulkiness significantly hinders the approach of nucleophiles, resulting in the slowest rate of hydration.
Hydration rates are influenced by steric hindrance and the reactivity of the molecule. Formaldehyde is the fastest to hydrate due to minimal steric hindrance and high reactivity, while 3,3-dimethylbutan-2-one, having the most steric hindrance, is the slowest.
Explanation:When ranking the compounds from slowest to fastest rate of hydration, we need to consider the factors that affect hydration rates such as structure, size, and functional group. Hydration involves the addition of water to the compound, and this process is generally faster for molecules that can better stabilize the transition state. Formaldehyde is highly reactive and can form a hydrate readily, despite its small size, due to its high reactivity and the lack of steric hindrance. For ketones, increased steric hindrance and a decrease in polarization of the carbonyl group result in slower hydration rates.
Based on these considerations, the ranking from slowest to fastest rate of hydration for the given compounds would be: 3,3-dimethylbutan-2-one (most steric hindrance and least reactive), 3-methylbutan-2-one, butan-2-one, propanal, and formaldehyde (least steric hindrance and most reactive).
How do you know when a chemical reaction has occurred
Answer:
The Substance Has Changed and Has Become Something Else
Explanation:
When a chemical reaction occurs it has a few characteristics, for example burning. The substance, paper, becomes something else, ash. The ash can no longer be turned back into paper. Another example is rust, once and object is rust due to oxidation it can no longer return back. A physical reaction on the other hand can be reversed, like freezing. To spot chemical change look for color changing, gas production, a change in temperature, or if you see any light.
What is the formula for heat of fusion?
Answer:
The formula used to calculate heat of fusion:
q = m·ΔH f
Explanation:
The formula used to calculate heat of fusion:
q = m·ΔH f
Answer:
q = m·ΔH f
Explanation:
If a liquid is sealed in a container and kept at constant temperature, how does its vapor pressure change over time?
It continues to steadily increase.
It increases at first, then remains constant.
It increases at first, then decreases.
It continues to steadily decrease.
Answer:
C. it will increase at first, then remain constant
Explanation:
at element makes up all organic compounds?
Answer:
The element that makes up all organic compounds is carbon (C)Explanation:
The term organic matter refers to the matter in the living organisms. Nowadays, organic compounds, the object of organic chemistry, are the compounds that contain carbon except carbon oxides, carbides and carbonates (which are considered inorganic compounds).
Organic compounds form a vast variety of vital compounds based on the versatility of carbon atoms.
Carbon atoms have four valence electrons which can form a variety of single, double, and triple bonds with it self, to form long chains.
Carbon atoms can also form bonds with other elements like, hydrogen, oxygen, nitrogen, halogens, among others, to form different kind of compounds: alkanes, alkenes, alkynes, alcohols, aldehydes, esters, eters, amines, amides, polymers, among others.
Thus, organic compounds form a vast subject of study based on the special chemical properties of carbon.
The element that has the greatest electronegativity is
Hello There!
On the periodic table, fluorine is the most electronegative element. On the periodic table, its symbol is F.
ATOMIC NUMBER "9"
ATOMIC MASS "18.998404" (19)
NEUTRONS "19-10=9" (9)
PROTONS "9"
ELECTRONS "9"
Fluorine is corrosive and a pale yellow gas.
Choose the atom with the largest atomic radius. CI, S, Na,SI
Answer:
Na
Explanation:
Cl, S and Na are all in the same period.
The further left an element is in a row of the periodic table, the larger its atomic radius.
Answer:
Na
Explanation:
Which element is least likely to undergo a chemical reaction
Answer:
Neon is the least likely to undergo chemical reaction.
Explanation:
The other elements given in the option do not have 8 electrons in their outermost shell, so they will be quite willing to undergo chemical reactions in order to become stable.
Which of these compounds is a product of protein synthesis?
A. hydrogen
B. Water
C. Carbon dioxide
D. Oxygen
What phase of matter has particles that are held together but can flow past each other and takes the shape of a container, filling it from the bottom up?
Answer:
Liquid
Explanation:
Liquid has particles that are held together but can flow past each other and takes the shape of a container, filling it from the bottom up.
Hope this helps!
Answer: Liquid
Explanation:
Solid state : It is a state in which the particles are closely packed and does not have any space between them. They have least kinetic energy due to restricted movement. This state has a definite shape and volume.
Liquid state : It is a state in which the particles are present in random and irregular pattern. The particles are closely arranged but they can move from one place to another and thus have higher kinetic energy as compared to solids. This state has a definite volume but does not have a fixed shape. It takes the shape of the container.
Gaseous state : It is a state in which the particles are loosely arranged and have a lot of space between them. They have highest kinetic energy. This state has indefinite volume as well as shape.
Thus the phase mentioned is liquid phase.
What is the percent by mass of oxygen in fe2o3
The biosphere of the earth is made up of _______compounds.
A. Inorganic
B. Organic
Answer:
B.
Explanation:
When we say "biosphere", we're referring to the atmosphere, geosphere, lithosphere and hydrosphere, and everything in them. You've probably heard of these in class as the "pillars of Earth" or the "pillars of our planet". In other words, when we talk about biosphere we're talking about life.
Organic compounds are all of the compounds that contain carbon, C, in them. You might know that CHNOPS* are the "7 molecules of life", and you might have noticed that Carbon stands first in the list, and that's not because it makes up a mnemonic, Carbon is indeed the most important one in many ways.
*Carbon, Hydrogen, Nitrogen, Oxygen, Phosphorus and Sulfur.
Hope it helped,
BiologiaMagister
Answer:
Organic :)
Explanation:
Which aqueous solution of KI freezes at the lowest temperature? 1) 1 mol of KI in 500. g of water
2) 2 mol of KI in 500. g of water
3) 1 mol of KI in 1000. g of water
4) 2 mol of KI in 1000. g of water
Answer:
2) 2 mol of KI in 500. g of water.
Explanation:
Adding solute to water causes depression of the boiling point.The depression in freezing point (ΔTf) can be calculated using the relation:
ΔTf = i.Kf.m,
where, ΔTf is the depression in freezing point.
i is the van 't Hoff factor.
van 't Hoff factor is the ratio between the actual concentration of particles produced when the substance is dissolved and the concentration of a substance as calculated from its mass. For most non-electrolytes dissolved in water, the van 't Hoff factor is essentially 1. (i for KCl = 2/1 = 2).
Kf is the molal depression constant of water (Kf = 1.86°C/m).
m is the molality of the solution.
All parameters (i, and Kf) are constant, m is the variable.ΔTf ∝ m.
molality (m) of a solution is the no. of moles of dissolved solute in a 1.0 kg of the solvent.
We need to calculate the molality of each solution:
1) 1 mol of KI in 500. g of water :
m of this solution = (no. of moles)/(mass of the solution(kg) = (1.0 mol)/(0.5 kg) = 2 m.
∴ ΔTf = i.Kf.m = (2)(1.86°C/m)(2 m) = 7.44°C.
∴ Freezing point of the solution = 0.0°C - 7.44°C = - 7.44°C.
2) 2 mol of KI in 500. g of water :
m of this solution = (no. of moles)/(mass of the solution(kg) = (2.0 mol)/(0.5 kg) = 4 m.
∴ ΔTf = i.Kf.m = (2)(1.86°C/m)(4 m) = 14.88°C.
∴ Freezing point of the solution = 0.0°C - 14.88°C = - 14.88°C.
3) 1 mol of KI in 1000. g of water :
m of this solution = (no. of moles)/(mass of the solution(kg) = (1.0 mol)/(1.0 kg) = 1 m.
∴ ΔTf = i.Kf.m = (2)(1.86°C/m)(1 m) = 3.72°C.
∴ Freezing point of the solution = 0.0°C - 3.72°C = - 3.72°C.
4) 2 mol of KI in 1000. g of water:
m of this solution = (no. of moles)/(mass of the solution(kg) = (2.0 mol)/(1.0 kg) = 2 m.
∴ ΔTf = i.Kf.m = (2)(1.86°C/m)(2 m) = 7.44°C.
∴ Freezing point of the solution = 0.0°C - 7.44°C = - 7.44°C.
So, the aqueous solution of KI freezes at the lowest temperature is:
2) 2 mol of KI in 500. g of water.
Option 2, which contains 2 mol of KI in 500 g of water, will freeze at the lowest temperature due to the highest concentration of solute particles, resulting in the largest freezing point depression.
The lowest temperature at which an aqueous solution of KI will freeze is determined by the solution that has the highest concentration of solute particles (ions) in water. Freezing point depression is directly proportional to the molality of the solution, and since KI dissociates into K+ and I- ions in water, each mole of KI will yield two moles of ions.
Comparing the options given:
Option 1 has 1 mol of KI which yields 2 mol of ions in 500 g of water.Option 2 has 2 mol of KI which yields 4 mol of ions in 500 g of water - resulting in the highest concentration and thus the largest freezing point depression.Option 3 has 1 mol of KI in 1000 g of water, so the concentration is lower than in option 1.Option 4 has 2 mol of KI in 1000 g of water, which is double the amount of water compared to option 2, leading to a lower ion concentration.Therefore, option 2 (2 mol of KI in 500 g of water) would result in the lowest freezing temperature due to having the highest concentration of ions that causes the greatest freezing point depression.
The energy from 0.02 moles of butane is used to heat 328 grams of water. The temperature of the water rose from 298 K to 343 K. (The specific heat capacity of water is 4.18 J/K g.) What is the enthalpy of combustion? A. 1,578.01 J B. 3,084,840.0 J C. 23,513,336 J
Answer:
c
Explanation:
C4H10 + 13/2 O2 = 4CO2 + 5H2O
0.02 = 328*4.18*45
1= x
making x the subject of the formula you'll get 3084840.0J
Answer:
B) The enthalpy of combustion = 3,084,840 J
Explanation:
Given:
Moles of butane = 0.02
Mass of water, m = 328 g
Initial temperature T1 = 298 K
Final temperature T2 = 343 K
Specific heat of water, c = 4.18 J/g-K
To determine:
Enthalpy of combustion
Explanation:
Heat lost during combustion of butane = heat gained by water
Heat gained (q) by water is given as:
q = mc\Delta T = mc(T2-T1)
substituting for m, c, T2 and [tex]q = 328g*4.18J/g-K*(343-298)K = 61697.8 \ J[/tex]T1
[tex]Enthalpy \ of \ combustion = \frac{q}{moles\ of\ butane} \\\\= \frac{61697.8}{0.02} = 3,084,890\ J[/tex]
Insoluble substances can dissolve in all solvents. True or false
Answer:
The answer to your question is False.
Explanation:
An insoluble substance cannot dissolve
Final answer:
The statement is false; insoluble substances by definition do not readily dissolve in solvents, and solubility depends on the 'like dissolves like' principle where substances dissolve in solvents with similar intermolecular forces.
Explanation:
The statement that insoluble substances can dissolve in all solvents is false. An insoluble substance is defined as a solute that does not dissolve in a solvent. While it is true that no solid is perfectly insoluble and most have some small level of solubility in a solvent, the term 'insoluble' is used to describe substances that do not dissolve to any significant extent. The solubility of a substance largely depends on the similarity in intermolecular forces between the solute and the solvent, which is summarized by the rule 'like dissolves like'.
Nonpolar substances are generally soluble in nonpolar solvents, whereas polar and ionic substances are more likely to dissolve in polar solvents. For example, table salt (NaCl), which is ionic, dissolves well in water because they are both polar. However, nonpolar substances, such as oil, do not mix with water because they are not soluble in polar solvents. Moreover, there are scenarios where an 'insoluble' substance can exhibit a degree of solubility due to the hydrotropic action of water, enabling otherwise insoluble substances to dissolve at least slightly in water.
In summary, some substances can dissolve to an extent in certain solvents due to the 'like dissolves like' principle, but insoluble substances by definition do not dissolve readily in any solvents to form true solutions.
Use the standard enthalpies of formation for the reactants and products to solve for the ΔHrxn for the following reaction. (The ΔHf of C2H4 is 52.26 kJ/mol, CO2 is -393.509 kJ/mol, and H2O is -241.818 kJ.) C2H4 (g) + 3O2(g) 2CO2 (g) + 2H2O(g)
ΔHrxn =
The reaction is .
Answer: The enthalpy change of the reaction is -1322.91 kJ
Explanation:
The chemical equation for the combustion of propane follows:
[tex]C_2H_4(g)+3O_2(g)\rightarrow 2CO_2(g)+2H_2O(g)[/tex]
The equation for the enthalpy change of the above reaction is:
[tex]\Delta H^o_{rxn}=[(2\times \Delta H^o_f_{(CO_2(g))})+(2\times \Delta H^o_f_{(H_2O(g))})]-[(1\times \Delta H^o_f_{(C_2H_4(g))})+(3\times \Delta H^o_f_{(O_2(g))})][/tex]
We are given:
[tex]\Delta H^o_f_{(H_2O(g))}=-241.818kJ/mol\\\Delta H^o_f_{(O_2(g))}=0kJ/mol\\\Delta H^o_f_{(CO_2(g))}=-393.509kJ/mol\\\Delta H^o_f_{(C_2H_4(g))}=52.26kJ/mol[/tex]
Putting values in above equation, we get:
[tex]\Delta H^o_{rxn}=[(2\times (-393.509))+(2\times (-241.818))]-[(1\times (52.26))+(3\times (0))]\\\\\Delta H^o_{rxn}=-1322.91kJ[/tex]
Hence, the enthalpy change of the reaction is -1322.91 kJ
Compared to the Apollo program, the Space Shuttle has been
A. a complete failure.
B. much more successful.
C. considered a mixed success.
D. able to explore much more of the solar system.
your answer is C. considered a mixed success.
ListenBase your answer to the question on the information below.Soil pH can affect the development of plants. For example, a hydrangea plant produces blue flowers when grown in acidic soil but pink flowers when grown in basic soil. Evergreen plants can show a yellowing of foliage, called chlorosis, when grown in soil that is too basic.Acidic soil can be neutralized by treating it with calcium hydroxide, Ca(OH)2, commonly called slaked lime. Slaked lime is slightly soluble in water.Which equation correctly shows the neutralization of the ions in acidic soil by the ions released by slaked lime in water?Ca(OH)2(s) + H2O → Ca(OH)2(aq)H3O+(aq) + OH−(aq) → 2H2O(l)Ca(OH)2(s) + H2O → Ca+2 + 2OH−2H2O(l) → H3O+(aq) + OH−(aq)
Answer:
[tex]\boxed{\text{H$_{3}$O$^{+}$ + OH$^{-} \longrightarrow$ 2H$_{2}$O}}[/tex]
Explanation:
1. "Molecular" equation
[tex]\rm Ca(OH)$_{2}$ + 2H$_{3}$O$^{+} \longrightarrow \,$ Ca$^{2+}$ + 4H$_{2}$O[/tex]
2. Ionic equation
[tex]\rm \textbf{Ca}$^{2+}$ + 2OH$^{-}$ + 2H$_{3}$O$^{+}$ \longrightarrow \textbf{Ca}$^{2+}$ + 4H$_{2}$O[/tex]
3. Net ionic equation
Cancel all ions that appear on both sides of the reaction arrow (in boldface).
[tex]\rm 2OH$^{-}$ + 2H$_{3}$O$^{+} \longrightarrow$ 4H$_{2}$O[/tex]
Divide every coefficient by 2.
[tex]\rm OH$^{-}$ + H$_{3}$O$^{+} \longrightarrow$ 2H$_{2}$O[/tex]
The kw for water at 0 °c is 0.12× 10–14 m2. Calculate the ph of a neutral aqueous solution at 0 °c.
Answer:
pH = 7.46.
Explanation:
The ionization of water is given by the equation :H₂O(l) ⇄ H⁺(aq) + OH⁻(aq),
The equilibrium constant (Kw) expression is:
Kw = [H⁺][OH⁻] = 0.12 x 10⁻¹⁴.
in pure water and neutral aqueous solution, [H⁺] = [OH⁻]
So, Kw = [H⁺]²
∴ 0.12 x 10⁻¹⁴ = [H⁺]²
∴ [H⁺] = 3.4 x 10⁻⁸ M.
∵ pH = - log [H⁺]
pH = - log (3.4 x 10⁻⁸) = 7.46.
How does carbon move from living things to the atmosphere
Answer:
Each time you exhale, you are releasing carbon dioxide into the atmosphere. Animals and plants get rid of carbon dioxide gas through a process called respiration. Carbon moves from fossil fuels to the atmosphere when fuels are burned.
Answer:
Animals and plants need to get rid of carbon dioxide gas through a process called respiration. Carbon moves from fossil fuels to the atmosphere when fuels are burned. When humans burn fossil fuels to power factories, power plants, cars and trucks, most of the carbon quickly enters the atmosphere as carbon dioxide gas.
Explanation:
Carbon moves from living things to the atmosphere. Each time you exhale, you are releasing carbon dioxide gas (CO2) into the atmosphere. Animals and plants need to get rid of carbon dioxide gas through a process called respiration. Carbon moves from fossil fuels to the atmosphere when fuels are burned.
What is the IMA of the 1 st class lever in the graphic given?
2
3
0.5
Answer:
I believe the answer isT 2.
Explanation:
he formula for IMA of a first-class lever is effort-distance/resistance-distance.
Answer:
IMA = 2
Explanation:
IMA= din/dout
IMA= 3/1.5
IMA= 2
In what kind of reaction do two or more substances combine to form a new compound
Answer:
Combination or synthesis
Explanation:
In combination or synthesis, there is formation of a single product from two or more reactants e.g:
H₂ + I₂ → 2HI
Here a compound forms from the association of the consituent elements.
Other kinds of chemical reactions we have are:
Decomposition or crackingSingle replacement or single displacementDouble replacement or double decomposition or metathesis.The forensic technician at a crime scene has just prepared a luminol stock solution by adding 15.0 g of luminol into a total volume of 75.0 mL of H2O. What is the molarity of the stock solution of luminol?
Answer:
1.13 M.
Explanation:
Molarity (M) is defined as the no. of moles of solute dissolved in a 1.0 L of the solution.M = (no. of moles of luminol)/(Volume of the solution (L).
∵ no. of moles of luminol = (mass/molar mass) of luminol = (15.0 g)/(177.16 g/mol) = 0.085 mol.
Volume of the solution = 75.0 mL = 0.075 L.
∴ M = (no. of moles of luminol)/(Volume of the solution (L) = (0.085 mol)/(0.075 L) = 1.13 M.