Convert the following values:

1. 1.35 atm to psi
2. 100.2 kPa to mm Hg
3. 10.83 psi to kPa

Well that big peak in the graph there is called the transition state. The reaction needs to get past this energy hurdle to continue. The difference between these two graphs is that II has a lower energy transition state. Catalysts are known to lower transition states so that's my vote, a catalyst was added.

Answer: A catalyst was added.

Explanation:

Activation energy is the extra energy that must be supplied to reactants in order to cross the energy barrier and thus convert to products.

When a catalyst is added top a reaction, it increases the rate of a reaction by taking the reaction through a different path which involves lower activation energy and thus more molecules can cross the energy barrier and convert to products.

The concentration of reactants and products remain same even after addition of catalyst.

B represents activation energy for uncatalyzed reaction and E represents activation energy for catalyzed reaction.

Unsaturated hydrocarbons undergo addition reactions to become saturated.

Answer: The correct statement is unsaturated hydrocarbons require energy to react.

Explanation:

Unsaturated hydrocarbons are defined as the hydrocarbons which have double or triple covalent C-C bonds. They are known as alkenes and alkynes respectively. The general formula for these hydrocarbons is [tex]C_nH_{2n}[/tex] and [tex]C_nH_{2n-2}[/tex]

These hydrocarbons are more reactive than the saturated ones because of the presence of [tex]\pi-[/tex]bonds. These bonds are weaker than [tex]\sigma-[/tex]bonds and thus can be easily broken. Addition reactions is more favorable for the compounds having [tex]\pi-[/tex]bonds.

These hydrocarbons do not require any energy to react. They are readily reactive.

Hence, the correct statement is unsaturated hydrocarbons require energy to react.

A o degrees Celsiusfycgvhbjhuygftxetrfyguhijuhygutfytftg

If i am correct the answer should be C because less than the amount would mean the ice has to melt from its ice form back to the original water liquid form.

Answer:

The number of large fish will increase.

Explanation:

If in a particular lake, thousands of small fishes are added, then the number of the larger fishes will increase. The reason for this is because in general the larger fishes are feeding on the smaller fishes, thus with the introduction of the thousands of small fishes there will be an increase in their food source. Also, the smaller fishes have much quicker reproduction, so the chances are that they will reproduce quickly enough so that they increase in numbers, thus providing constant food source that will enable the support of larger populations of the larger fishes.

Great change occur in big fish population with the introduction of thousands of small fish.

If someone adds thousands of small fish to a lake the number of big fish increases if their food is these small fishes because more food is available for it which results in the increase of population of big fish.

While on the other hand, if the small fishes feed on the same food on which the big fish feed than there is competition which negatively affected the big fish and decrease in population due to unavailability of food so we can conclude that big change occur in big fish population with the introduction of thousands of small fish.

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Final answer:

A substance changing color typically indicates a chemical change where new substances with different properties, including color, are formed. This is attributable to a variety of factors including temperature, light exposure, and the molecular structure of the substance.

Explanation:

When a substance changes color, it is often an indication that a chemical change has occurred. This change is a result of a new substance being formed with different properties, including color. An example of this is when increasing concentration in a chemical reaction causes a color change from orange to brown, illustrating a reaction's progression.

Factors that can cause a substance to change color include a change in temperature, light, and chemical composition. A clear example is provided by the difference in coloration: 1,2-diphenylethene is colorless, whereas its extended conjugation counterpart, 1,10-diphenyl-1,3,5,7,9-decapentaene, shows a yellow-orange color. Such changes in color can be due to differences in energy levels associated with electronic transitions in the molecules.

Color changes in reactions can also be time-dependent, as seen with substances like acetophenone, which change color after prolonged exposure to air or heat.

In summary, color changes are a significant visual clue that a chemical reaction may have taken place. There are four visual clues that indicate this: color change, gas production, formation of a precipitate, and energy transfer.

Answer: Phosphorylation

Answer:

Explanation:

5.11= 9.3001x

x=0.5494

2 mol HI produced. Thus,

(2)(0.5494)=1.0989 = 1.09 = [HI] present at equilibrium.

Bases produce OH- when they react with water.

A weak base is a substance that ionizes only to a small extent in water. A weak base remains largely undissociated in water. Recall that bases produce OH- in solution.

The equation of the reaction by which the following species produce OH- in water are shown below;

CO3^2-(aq) + H2O(l) -------> HCO2^-(aq) + OH^-(aq)

C6H5NH2(aq) +  H2O(l) -------> C6H5NH3^+(aq) + OH^-(aq)

C2H5NH2(aq) +  H2O(l) -------> C2H5NH3^+(aq) +  OH^-(aq)

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The weak bases CO3^2-, C6H5NH2 and C2H5NH2 ionize in water by accepting a proton (H+) from water, and in the process, creating hydroxide ions (OH-) and their corresponding positive ions. The respective ionization equations are: CO3^2- + H2O ⟶ HCO3- + OH-, C6H5NH2 + H2O ⟶ C6H5NH3+ + OH-, and C2H5NH2 + H2O ⟶ C2H5NH3+ + OH-.

The ionization of weak bases in water involves the base accepting a proton (H+) from water, creating hydroxide ions (OH-) and a corresponding positive ion. Here are the equations representing how the three given bases ionize in water:

Note that in all these reactions, OH- is formed showing the formation of basic solutions.

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a helium-4 nucleus is formed

Fossils are vital for understanding past environments, indicating past climates and geological events through their preservation conditions. Index fossils help correlate rock layers, while stable isotopes and molecular clocks provide details on the environment and evolutionary relationships.

Fossils provide valuable information about past environmental conditions due to their unique nature as the remains or impressions of ancient life forms. As organisms are fossilized, they can offer clues about the climate, geography, and biological interactions of their time.

Examples of Environmental Clues from Fossils

The conditions required for fossilization - such as rapid burial and lack of oxygen - help explain why fossils are rare. When these specific conditions are met, organisms can be preserved in various forms like petrifications, molds, casts, or even preserved traces like footprints.

Index fossils, which are fossils of organisms that were geographically widespread but limited to a short span of geologic time, are particularly useful in correlating rock layers and understanding the history of life on Earth.

Utilizing Fossil Data

By analyzing stable isotopes found in fossils or employing relative and absolute dating methods, scientists can reconstruct past environments and understand the broader ecological context. Molecular clocks, which compare genetic differences to estimate the times when different species diverged, help clarify evolutionary relationships, offering a more complete picture of life's history. However, 'carbon dating' is only applicable for dating relatively recent fossils, as the half-life of carbon-14 is about 5,730 years, which limits its utility for much older specimens.

Answer;

= 0.422 M

Molarity or concentration is the number of moles of a solute in 1 liter of a solution.

Therefore; Molarity = n/V ; where n is the number of moles and V is the volume of the solution in L.

Number of moles = Mass/molar mass

                             = 289 g/342.2965g/mol

                             = 0.844 Moles

Therefore;

Molarity = 0.844 moles/ 2L

              = 0.422 M

a) IF = polar

b) CS2 = non-polar

c) SO3 = non-polar

d) PCl3 = polar

e) SF6 = non-polar (bonds are polar, but the molecule is non-polar, since the                                                                                                                                    net dipole moment is zero)

f) IF5 = polar

The classification of the given molecules as polar or non-polar are;

a) IF; Polar

a) IF; Polarb) CS2; Non - polar

a) IF; Polarb) CS2; Non - polar c) SO3; Non - polar

a) IF; Polarb) CS2; Non - polar c) SO3; Non - polar d) PCl3; Polar

a) IF; Polarb) CS2; Non - polar c) SO3; Non - polar d) PCl3; Polare) SF6; Non - polar

a) IF; Polarb) CS2; Non - polar c) SO3; Non - polar d) PCl3; Polare) SF6; Non - polar f) IF5; Polar

To answer this question, we need to first understand polar and non - polar molecules.

When we say that a molecule is polar, it means that the arrangement of the atoms is in such a manner that makes one end of the molecule to have a positive electrical charge with the other end having a negative charge. This means that polar molecules are formed from polar covalent bonding when two atoms do not share electrons equally .

When we sat that a molecule is non-polar, what it means is that it does not have electrical poles. This means that it's electrons are shared equally unlike that of polar molecules.

In contrast to polar molecules, non-polar molecules do not have an abundance of charges at the opposite ends. Examples are found in hydrocarbon liquids.

From the Explanations above, we can categorize the given molecules into polar or non polar as;

a) IF; Polar

b) CS2; Non - polar

c) SO3; Non - polar

d) PCl3; Polar

e) SF6; Non - polar

f) IF5; Polar

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Answer: option A, using 1 gram of powdered zinc.

Explanation:

The rate of chemical reactions are affected by a number of factors, which you can summarize in this form:

1) Concentration of the reactants

The more concentrate are the reactants, more frequently they will interact (collide) and will be able to yield product. So, the higher the concentration the higher the rate.

This means using 1 M hydrochloric acid, as the option B states, instead of 3 M (stated for the original reaction) will slow down the reaction instead of increase the rate.

The same is valid for the option D. Decreasing the concentration of zinc will not increase the rate of the reaction, but will decrease it.

2) Surface area of the reactants

Increasing the surface area will permit that the reactants reach a faster intimate contact, occurring more of collisions per unit of time, and, consequently increasing the rate of the reaction.

Then, option A, using 1 gram of powdered zinc, i.e. the same amount stated for the original reaction, but with more surface area, will produce the desired effect of increasing the rate of reaction.

3) Temperature

Higher temperatures means that the kinetic energies of the reactants are higher and so the collisions will occur with more energy and the probability of effective collisions will increase. Decreasing the temperature will have the opposite effect (the rate of reaction will decrease).

Hence, the option C, decreasing the temperature to 20° C will not increanse the rate of the reaction.

3) Catalyst

Catalyst ares substances that modify the path of the reaction, decreasing the activation energy and, consequently, increasing the rate of reaction. Since, none of the statements indicates the use of catalyst, this is not an option.

The correct option is A. using 1 gram of powdered zinc.

To understand why using powdered zinc would most likely increase the rate of the reaction, one must consider the factors that affect reaction rates. These factors include the concentration of reactants, the surface area of reactants, the temperature at which the reaction occurs, and the presence of a catalyst.

 In this case, the reaction between zinc and hydrochloric acid can be represented by the following equation:

[tex]\[ \text{Zn}(s) + 2\text{HCl}(aq) \rightarrow \text{ZnCl}_2(aq) + \text{H}_2(g)[/tex]

 Now, let's analyze each option:

 A. Using 1 gram of powdered zinc: Increasing the surface area of the zinc by using it in powdered form would increase the number of particles that can react with the hydrochloric acid at any given time. This would increase the rate of the reaction because more collisions between the zinc and hydrochloric acid molecules would occur, leading to a faster reaction rate.

B. Using 1 M hydrochloric acid: Decreasing the concentration of hydrochloric acid from 3 M to 1 M would actually decrease the rate of the reaction. According to the collision theory, a higher concentration of reactants leads to more frequent collisions and thus a faster reaction rate.

 C. Decreasing the temperature to 20°C: Generally, decreasing the temperature would decrease the kinetic energy of the particles, leading to fewer successful collisions and a slower reaction rate. The Arrhenius equation shows that the rate constant \(k\) is directly related to the temperature [tex]T[/tex] by the equation [tex](k = A \cdot e^{-\frac{E_a}{RT}}\)[/tex], where [tex]\(A\)[/tex] is the pre-exponential factor, [tex]\(E_a\)[/tex] is the activation energy, and [tex]R[/tex] is the gas constant.

 D. Decreasing the concentration of the zinc: This option would decrease the rate of the reaction for the same reason as option B. A lower concentration of zinc would mean fewer zinc particles are available to react with the hydrochloric acid, resulting in a slower reaction rate.

 Therefore, the most effective way to increase the rate of the reaction, based on the given options, is to increase the surface area of the zinc by using it in powdered form, which corresponds to option A.

Answer:

92.0 torr/min.

Explanation:

∵ The rate of the reaction = - 1/2(ΔP)NO/Δt = - (ΔP)Cl₂/Δt = 1/2(ΔP)NOCl/Δt.

∵ (ΔP)NO/Δt = - 184 torr/min.

∴ The rate of change of the total pressure in the vessel = - 1/2(ΔP)NO/Δt = (- 1/2)(- 184 torr/min) = 92.0 torr/min.

Final answer:

Writing a hypothesis serves to provide a testable and falsifiable prediction that connects theoretical ideas to empirical evidence, guiding experimental design and advancing scientific understanding.

Explanation:

The purpose of writing a hypothesis is to make a testable prediction about a natural phenomenon that arises from an initial observation. By establishing a hypothesis, scientists can create a bridge between theoretical ideas and the real world, allowing them to conduct experiments and gather data.

A well-formulated hypothesis must be grounded in scientific knowledge, be logical, and most importantly, be both testable and falsifiable. This means it must be possible to design an experiment or make observations that could potentially disprove the hypothesis if it is not correct.

Scientific investigations commonly begin with an observation that leads to a question. Research and reasoning based on scientific knowledge then guide the formation of a hypothesis, often taking the form 'If condition X occurs, then effect Y will follow'.

This predictive statement is crucial for guiding the experimental design, where the objective is to either support or refute the hypothesis.

Contrary to a hypothesis, a scientific theory is a thoroughly tested and confirmed explanation for a set of observations, and a scientific law is a statement that summarizes the relationship between variables without offering the 'why' of the phenomenon.

Answer: eight (8), for most atoms.

Explanation:

Atoms gain chemical stability by completing the highest energy level with all the electrons it can have, which is 8 for most atoms.

The elements of the first period (row 1), hydrogen and helium, have outer energy level, n, equal to 1.

So, since n = 1, the atoms of hydrogen and helium (in the ground state) fill the 1s orbital, so they need just two electrons to be chemically stable. That is why helium, having 2 electrons, is a noble gas, and hydrogen, having 1 electron, just needs to add 1 more electron to be chemically stable like helium.

For period 2 through 7 of the periodic table (n = 2, n=3, n =4, n =5, n = 6, and n = 7), the outer energy levels can hold 8 electrons. That is why the noble gases Ne, Ar, Kr, Xe, Rn, and Og, each with 8 electrons in the outer energy level are chemically stable.

Here you have two examples to see how this works:

Answer: The number placed in front of a compound to balance a chemical reaction is called coefficient.

Explanation:

Assume this general form for a chemical equation:

The letters a, b, c, and d, in front of each compound A, B, C, and D, are called coefficients and indicate the number of formula units (molecules or ions) that take part in the equation.

Those coefficients are needed to balance the equation and ensure compliance with the law of mass conservation.

This example shows it:

        H₂ (g) + 2O₂(g) → 2H₂O(g)

In that equation:

You read it as: 1 mole of gaseous hydrogen and 2 moles of gaseous oxygen yield 2 moles of water vapor.

a solenoid is used wherever a magnetic field is needed

Answer:

Electric motor

Explanation:

An electric motor is such a device which works on the principle of electro magnetism. When current is allowed to pass through the wire in the electric motor, it creates a magnetic field around the coil.

           This magnetic field causes a force that pushes the magnets placed around the coil that moves or spins the magnets which results in the working of the motor. Thus in this way electric motor uses electromagnetism by using electricity in the coil to move the magnets which in turn does the useful work.

Answer:

C

Explanation:

The higher the temperatures the higher the kinetic energy of the particles. This is because the particles move more rapidly and faster with increased temperatures. This is why the more you heat a substance it changes phases as it molecules/particles move more rapidly and collide with more force.

The average kinetic energy of the particles of a substance is directly proportional to the temperature of the substance (Option C).

In conclusion, the average kinetic energy of the particles of a substance is directly proportional to the temperature of the substance (Option C).

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Answer:

High glucose concentrations prevent the transport of lactose into the cell.

Explanation:

by photosynthesis make it enzymes

Answer:

Transition state, decreases, substrates & gets decreased.

Explanation:

Most of the chemical reactions are slow because of the transition state barriers. It requires a lot of energy to cross the transition state barriers. So enzymes provide an alternate pathway for carrying out the reaction by stabilizing the transition state. When enzymes interact with the substrates with the help of functional groups present in their active sites it results in the lowering of activation energy because the transition state gets stabilized with the help of enzyme.

Answer:

11. 227 kJ·mol⁻¹; 12. 587 kJ

Step-by-step explanation:

11. Calculate ΔH°f

The formula for calculating the enthalpy change of a reaction by using the enthalpies of formation of reactants and products is

ΔH°r = ΣmΔH°f(products) - ΣnΔH°f(reactants)

                        2C₂H₂ + 5O₂ ⟶ 4CO₂ + 2H₂O; ΔH°c = -1299 kJ·mol⁻¹

ΔH°f/kJ·mol⁻¹:      2x         0          -393     -286

2(-1299) = 4(-393) + 2(-286) - 2x

  -2598 = -1572 - 572 - 2x

  -2598 = -2144 -2x

    -454 = -2x

         x = 227 kJ·mol⁻¹

ΔH°f for acetylene is 227 kJ·mol⁻¹

12. Hess's Law

Warning: It is almost impossible to solve a problem like this by trial and error. You must have a strategy beforehand.

We have five equations:

(I)     Ca + 2C ⟶ CaC₂;                    ΔH =    -62.8   kJ

(II)   Ca + ½O₂ ⟶ CaO;                   ΔH =   -635.5  kJ

(III) CaO + H₂O ⟶ Ca(OH)₂;           ΔH =   -653.1   kJ

(IV) C₂H₂ + ⁵/₂O₂ ⟶ 2CO₂ + H₂O;  ΔH = -1300     kJ

(V)  C + O₂ ⟶ CO₂;                         ΔH =   -393.51 kJ

From these, we must devise the target equation:  

(VI) CaC₂ + 2H₂O → Ca(OH)₂ + C₂H₂;  ΔH = ?  

Here comes the strategy. Remember, you can use each of the given equations only once.  

Start with the target equation. It has CaC₂ on the left, so you need an equation containing CaC₂ on the left.  

Reverse Equation (I). When you reverse an equation, you change the sign of its ΔH.

(VII) CaC₂ ⟶ Ca + 2C; ΔH = 62.8   kJ

Equation (VII) has Ca on the right, and that is not in the target. You need an equation with Ca on the left to cancel it. Add Equation (II)

(VIII) Ca + O₂ ⟶ CaO; ΔH = -1271.0 kJ

Equation (VII) also has 2C on the right, and there is no C in the target. We need an equation with 2C on the left to cancel it.

Double Equation (V). When you double an equation, you double its ΔH.

(IX) 2C + 2O₂ ⟶ 2CO₂; ΔH = -587.02 kJ

Now, we must eliminate the CaO from Equation (VII). Add Equation (III).

(X) CaO + H₂O ⟶ Ca(OH)₂; ΔH = -653.1 kJ

Equation (VIII) has 2CO₂ on the right. You need an equation with 2CO₂ on the left.

Reverse Equation (IV).

(XI) 2CO₂ +H₂O ⟶ C₂H₂ + ⁵/₂O₂ ; ΔH = 2600  kJ

Now, we add all five equations,  cancelling substances that appear on both sides of the reaction arrow. All the formulas in italics have been cancelled

(VII)  CaC₂ ⟶ Ca + 2C;                           ΔH =   62.8   kJ

(VIII) Ca + ½O₂ ⟶ CaO;                         ΔH = -635.5   kJ

(IX)   2C + 2O₂ ⟶ 2CO₂;                        ΔH = -787.02 kJ

(X)    CaO + H₂O ⟶ Ca(OH)₂;                ΔH = -653.1    kJ

(XI)   2CO₂ + H₂O ⟶ C₂H₂ + ⁵/₂O₂     ; ΔH = 2600     kJ

(VI)   CaC₂ + 2H₂O → Ca(OH)₂ + C₂H₂;  ΔH =    587     kJ

ΔH = 587 kJ

Answer:

= 7.50 mL

Explanation:

m1v1=m2v2

In this case;

m1=0.05  

m2=0.015 and

v2=25.00mL  

Therefore;

(.0500M)(v1)=(25.00mL)(.0150M)

V1 = ((25.00mL)(0.0150M))/0.0500 M

    = 7.50 mL

The gas will obey Boyles Law:

P1 V1 = P2 V2      where P1 and V1 are the original pressure and volume and P2 and V2 are the new  values.

If V2 = 2V1  (given) then:

P1 V1 = P2 *2 V1

P2 = P1 V1 / 2V1

P2 = P1 / 2

In other words the pressure is halved. (answer).

The pH of the solution formed by dissolving 660 mg of hydroiodic acid in 300 mL of water was calculated to be approximately 1.765. This was determined by finding the molarity of the hydroiodic acid, which is a strong acid, and using the formula for pH, which is the negative logarithm of the molar concentration of hydronium ions.

The subject of this question relates to the calculation of the pH of a solution formed by dissolving hydroiodic acid in water. Hydroiodic acid is a strong acid, meaning it completely ionizes in water. The number of moles of hydroiodic acid is found by converting the mass of the acid (660 mg, or 0.660 g) into moles, with the molar mass of hydroiodic acid as 128 g/mol. This results in approximately 0.00516 moles of hydroiodic acid.

Next, we find the concentration of the acid in the solution by dividing the number of moles by the volume of the solution in liters (0.300 L). This gives a molarity of approximately 0.0172 M. Since hydroiodic acid is a strong acid, the concentration of hydronium ions ([H3O+]) is effectively equal to the concentration of the acid.

Finally, we calculate the pH of the solution using the formula pH = -log[H3O+]. Substituting the found hydronium ion concentration into this formula gives a pH of approximately 1.765.

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Answer:

The correct answers are:

Explanation:

Following Le Chatelier's principle, when a chemical equilibrium is disturbed by an external force, the reaction will shift toward the side that permits to overcome or minimize the disturbance and comeback to a new equilibrium.

Since, the pressure is inversely related to the volume (the greater the volume the lower the pressure and viceversa), ff the volume of a reaction mixture at equilibrium increases by a factor of 2, the pressure of the system will decrease.

Since, the pressure is directly related to the number of particles (atoms,or molecules), you can predict that the reaction will shift to the side where more molecules are produced to overcome the decrease in the pressure generated by the increase on the volume.

Let's see each option.

a. 2 SO₂(g)+ O₂(g) ⇄ 2 SO3(g)

Incorrect.

There are more molecules on the left side (reactant side) so the reverse reaction is favored. This is the equilibrium will shift to the formation of more reactants. So, this is an incorrect option.

b. NO(g) + O₃(g) ⇄ NO₂(g) + O₂(g)

Incorrect.

There are two molecules in the reactant side and two molecules in the product side. Hence, in this equilibrium the increase of volume will not yield a change in the equlibrium.

c. 2N₂O₅(g) ⇄ 4 NO₂(g)+ O₂(g)

Correct.

In this reaction, there are four molecules in the product side (right) against 2 molecules in the reactant side (left). So, the increase in volume will produce a shift toward the product side.

d. N₂O₄(g) ⇄ 2 NO₂(g)

Correct.

There are more molecules in the product side than in the reactant side, so you predict a shift toward the formation of more product to overcome the increase of volume.

90 per square surface of the inner difference between both.

Answer:

= 230 ppb

Explanation:

Considering that;

1ppm = 1mg/L  

Then;

0.00023g = 0.23mg  

Therefore;

0.00023 g/L = 0.23 mg/L

0.23 mg/L = 0.23 ppm

1 ppm = 100 ppb

Therefore;

0.23 ppm = 0.23 ×1000

                = 230 ppb

Answer:

0.23 ppm , 230 ppb  

Explanation:

1 ppm (parts per million) is equivalent to 1 mg of SO₂ in 1 L of the water

Given mass of SO₂ = 0.00023 g = 0.00023 x 1000 mg (1g = 1000 mg) = 0.23 mg

So 0.23 mg/ L = 0.23 ppm

1 ppb (parts per billion) (10⁹) = 1000 ppm (parts per million) (10⁶)

0.23 ppm x 1000 = 230 ppb  

The discovery of the electron as a subatomic particle was a result of experiments with cathode ray tubes​.  

J.J. Thomson discovered the electron, the first subatomic particle in 1897. He used discharged tube experiments.

Thus, the discovery of the electron as a subatomic particle was a result of experiments with cathode ray tubes​.  

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