Phosphorus-32 has a half-life of 14.3 days. how many grams remain from a 10.0 gram sample after 30.0 days?

While BrI5 is not a common molecule and potentially not real, based on similar molecular structures, it would most likely be a polar molecule with polar bonds due to its presumed asymmetry and the difference in electronegativity between bromine and iodine.

The molecule in question, BrI5 (bromine pentaiodide), does not appear to exist or is not common in chemical literature. However, assuming it follows similar principles of molecular polarity, we can deduce its polarity based on the provided information. A molecule is polar if it has polar bonds and is not symmetric, meaning that the polarities do not cancel out. Conversely, a molecule is nonpolar if it has polar bonds but is symmetric, such that the polarization cancels out, or if there are no polar bonds present.

Since BrI5 is hypothetically a molecule consisting of a central atom of bromine with five iodine atoms surrounding it, its structure would likely be asymmetric due to the odd number of atoms, leading to an uneven distribution of charge. Thus, if BrI5 did exist, it would most likely have polar bonds (as bromine and iodine have different electronegativities) and would not be symmetric; hence, it would be a polar molecule with polar bonds.

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Answer:

7. 7.92 × 10−5

Explanation:

Hello,

In this case, with the given pH, one could find the pOH:

[tex]pOH=14-pH=14-10.20=3.8[/tex]

Thus, since barium hydroxide is completely dissolved in water based on:

[tex]Ba(OH)_2\rightarrow Ba^{+2}+2OH^-[/tex]

The concentration of hydroxyl ions is twice to that of the hydroxide (2:1 mole relationship). Therefore, by considering the relationship between the pOH and the concentration of hydroxyl we have:

[tex]pOH=-log([OH]^-)\\[/tex]

[tex][OH]^-=10^{-3.8}=1.58x10^{-4}M[/tex]

Finally, given the 1:2 mole ratio of barium hydroxide to hydroxyl ions, the concentration of barium hydroxide results:

[tex][Ba(OH)_2]=2*[OH^-]=\frac{1}{2} *1.58x10^{-4}M[/tex]

[tex][Ba(OH)_2]=7.92x10^{-5}M[/tex]

Thus, the answer is 7. 7.92 × 10−5.

Regards.

Lewis structure are the diagrams, which represent the bonding between atoms of a molecule. It also shows the number of lone pairs present in the atom. The propene Lewis structure shows that it has 8 sigma and 1 pi bonds.

Propene or CH[tex]_2[/tex]CHCH[tex]_3[/tex], is an organic compound that is released by the burning of forest fires, motor vehicles, and aircraft exhaust. The Lewis structure of propene shows that it has 8 sigma bonds and one pi bond.

The given image below is the Lewis structure of propene.

Carbon is a tetravalent atom, and in its its excited stated can form 4 covalent bonds. In the diagram, it is seen that carbon is [tex]\text{sp}^2[/tex] hybridized. Carbon forms head to head overlapping with the three hydrogen atoms, forming three sigma bonds.

Since, the carbon is a tetravalent atom, it will form one sigma and one pi bond. The pi bonds are formed when orbitals overlap perpendicularly along the plane of sigma bond.  

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When additional 5 grams of NaCl are dissolved in solution the conductivity of solution increases as more ions are available for conduction.

An ion is defined as an atom or a molecule which has a net electrical charge. There are 2 types of ions :1) cation 2) anion . The cation is the positively charged ion and anion is the negatively charged ion . As they are oppositely charged they attract each resulting in the formation of ionic bond.

Ions consisting of single atom are mono-atomic ions while which consists of two or more ions are called as poly-atomic ions . They are created by chemical interactions . They are very reactive in their gaseous state and rapidly react with  the oppositely charged ions resulting in neutral molecules.

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To calculate the equilibrium constant (Kc), we use the law of mass action. The equation for the reaction is N2 + 3H2 ⇌ 2NH3. By plugging in the given equilibrium concentrations into the equation and solving, we find that Kc is approximately 0.05927.

To calculate the equilibrium constant, Kc, we need to use the law of mass action. The equation for the reaction is:

N2 + 3H2 ⇌ 2NH3

Kc is calculated by taking the concentrations of the products (NH3) raised to their stoichiometric coefficients and dividing by the concentrations of the reactants (N2 and H2) raised to their stoichiometric coefficients.

Kc = ([NH3]²) / ([N2][H2]³)

Plugging in the given equilibrium concentrations ([NH3] = 0.75 M, [N2] = 0.31 M, [H2] = 1.51 M) into the equation, we get:

Kc = (0.75²) / (0.31 × 1.51³)

Kc = 1.125 / (0.468 × 3.448)³

Kc = 1.125 / (0.468 × 40.7855)

Kc = 1.125 / 18.986

Kc ≈ 0.05927

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Answer: Option (a) is the correct answer.

Explanation:

Rate of reaction is defined as the rate at which a chemical reaction occurs. That is, it tells how rapidly or slowly the products are formed.

Mathematically,         Rate = [tex]\frac{-\Delta [reactants]}{\Delta t}[/tex]

It also tells the number of successful collisions taking place.

Thus, we can conclude that the speed at which products form is measured by the reaction rate.

The value of [tex]\( Q \)[/tex] for the given solution is [tex]\( 5.00 \times 10^{-6} \).[/tex]

To determine the reaction quotient [tex]\( Q \)[/tex] for the dissolution reaction of magnesium carbonate, [tex]\( \text{MgCO}_3 \)[/tex], we need to understand the solubility product constant ([tex]\( K_{\text{sp}} \)[/tex]) and the concentrations of the ions involved.

Given:

Concentration of [tex]\( \text{Mg}^{2+} \)[/tex]: [tex]\( 2.50 \times 10^{-3} \) M[/tex]

Concentration of [tex]\( \text{CO}_3^{2-} \)[/tex]: [tex]\( 2.00 \times 10^{-3} \) M[/tex]

Reaction:

For the dissolution of [tex]\( \text{MgCO}_3 \)[/tex]:

[tex]\[ \text{MgCO}_3(s) \leftrightarrow \text{Mg}^{2+}(aq) + \text{CO}_3^{2-}(aq) \][/tex]

Expression for the Reaction Quotient ([tex]\( Q \)[/tex]):

[tex]\[ Q = [\text{Mg}^{2+}][\text{CO}_3^{2-}] \][/tex]

Substitute the given concentrations into the expression:

[tex]\[ Q = (2.50 \times 10^{-3} \, \text{M})(2.00 \times 10^{-3} \, \text{M}) \][/tex]

Calculation:

[tex]\[ Q = (2.50 \times 10^{-3}) \times (2.00 \times 10^{-3}) \][/tex]

[tex]\[ Q = 5.00 \times 10^{-6} \][/tex]

Final answer:

The book Rumble Fish by S.E. Hinton takes place in Tulsa, Oklahoma.

Explanation:

In the book Rumble Fish by S.E. Hinton, the story takes place in a fictional city called Tulsa, Oklahoma. The setting is important because it represents the harsh realities of urban life and the struggles faced by the characters in the book.

Final answer:

Rhodopsin, found in the retina's rod cells, is essential for vision by changing shape when exposed to light, initiating signal transduction to the brain. Rods are crucial for dim light vision, while cones handle color vision. The absorption of light by rhodopsin ultimately allows humans to see.

Explanation:

The human eye detects light through a sophisticated process involving rhodopsin, a special photopigment found in the retina. This pigment is a combination of a protein called opsin and the molecule 11-cis-retinal. When light reaches the photoreceptors, rods and cones, within the retina, it causes a conformational change in rhodopsin. Specifically, when light hits the rods, it causes the 11-cis retinal to change to all-trans retinal, splitting rhodopsin into opsin and all-trans retinal. This change sends a signal to the brain, allowing us to perceive the presence of light and, ultimately, see.

Rod cells are more sensitive and are crucial for vision in dim light, while cone cells provide detailed color vision under brighter light conditions. Rods contain rhodopsin with a maximum absorption around 500 nm, mainly in the blue-green region of the visible spectrum. Cones contain three types of photopigments, called opsins, each sensitive to different wavelengths of light corresponding to the primary colors red, green, and blue. The process of light absorption by rhodopsin and signal transduction to the brain is fundamental for human vision.

Answer:

The correct answer is -1059.45 kJ.

Explanation:

The balanced equation is:

6Cr₂⁺ + Cr₂O₇²⁻ + 14H⁺ ⇒ 8Cr₃⁺ + 7H₂O

In the mentioned reaction 6 electrons are transferred

By calculating Ecell with the use of reduction potential of each cell:

Ecell = Eox + Ered

Ered = 0.50V

Eox = -Ered = -(-0.50V) = 0.50V

Ered = 1.33V

Ecell = 0.50V + 1.33V

Ecell = 1.83V

Now in order to calculate ΔG

n = 6, Faraday constant (f) = 9.68470 × 10⁴ = 96847 C mol⁻¹

ΔG = -nFE

ΔG = -6 × 96487 C mol-1 × 1.83V

ΔG = -1059.42 KJ

The relation between ΔG and ΔG°rxn

ΔG = ΔG° + RTlnQ

Under the standard condition Q = 1 and ΔG = ΔG°

Thus,

ΔG°rxn = ΔG = -1059.42 KJ

According to Charles's law, the final volume of a gas that is cooled from 27 °c to 11 °c at constant pressure, and initially in a 2.6 L flask, is 2.46 L.

This question pertains to Charles's law, which states that the volume of a gas is directly proportional to its temperature if kept at a constant pressure. In this case, the initial temperature T₁ is 27°C (which converts to 300 K) and the final temperature T₂ is 11°C (or 284 K). The initial volume V₁ is 2.6 L. Remembering to convert degrees Celsius to Kelvin (by adding 273), we can solve for V₂, the unknown final volume, by setting up the equation V₁/T₁ = V₂/T₂.

Solving for V₂ yields V₂ = V₁ × (T₂/T₁) = 2.6 L × (284K/300K) = 2.46 L. So, if a gas originally at 27 °c and 1.00 atm pressure in a 2.6 L flask is cooled at constant pressure until the temperature is 11 °c, the new volume of the gas is 2.46 L.

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The increase in boiling points, surface tensions, and viscosities for ethanol, propanol, and n-butanol is due to stronger hydrogen bonding and van der Waals dispersion forces as these molecules get larger and contain more electrons.

The boiling points, surface tensions, and viscosities of ethanol, propanol, and n-butanol increase due to the presence of hydrogen bonding and van der Waals dispersion forces. As the molecules get larger and have more electrons, the van der Waals forces increase. This causes the boiling points to rise because more energy is needed to overcome these intermolecular forces. The surface tension and viscosity also increase as the molecular size and intermolecular forces increase.

Moreover, the boiling point of an alcohol is significantly higher compared to the analogous alkane due to the presence of hydrogen bonding in addition to van der Waals forces and dipole-dipole interactions. Alcohols also exhibit a pattern where the boiling points increase with the number of carbon atoms, reflecting the increase in intermolecular attractions as the molecule size increases.

An electrical circuit is best described as a 'steady flow.' Electricity in a circuit flows continuously from the power source, through the device being powered, and back to the source.

The term that best describes an electrical circuit is steady flow. In a basic electrical circuit, electricity moves from a power source like a battery through conductive materials such as wires to the device that it's powering (like a light bulb), and then it returns to the source. This movement is a continuous or steady flow of electric charge, and it usually happens until the power source is depleted or the circuit is otherwise disrupted.

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To calculate the concentration of Zn2+ at the cathode of a concentration cell, you apply the Nernst equation and solve for the unknown concentration using the given cell voltage, known ion concentration at the anode, and the idea that E^0 is 0 for concentration cells.

The student asked to calculate the concentration of the Zn2+ (aq) ion at the cathode of a zinc concentration cell at 25 °C, given that the cell voltage is 16.0 mV. To find this, we use the Nernst equation, which relates cell potential to ion concentration:

E = E^0 - (RT/nF)lnQ

With the given cell reaction Zn(s) → Zn2+ (aq) + 2e-, where the anode process is oxidation, and the cathode is where reduction occurs, we set up the reaction quotient Q as:

Q = [Zn2+]_{cathode} / [Zn2+]_{anode}

Since E^0 for a concentration cell is 0 (because both electrodes are of the same material), and the given [Zn2+]_{anode} is 0.100 M, we only need to find [Zn2+]_{cathode}. Rearranging and solving for [Zn2+]_{cathode}, we get:

16.0 mV = - (0.0592 V/2) * log(Q)

Q = 10^( -(16.0 mV) / (0.0592 V/2) )

[Zn2+]_{cathode} = Q * [Zn2+]_{anode} is then calculated to find the unknown concentration.

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the age of the sample (t) can be expressed as:** t = (1 / λ) * ln(a / r)

**1. Relate Activity and Initial Abundance:**

The activity (a) of the sample is proportional to the current number of ¹⁴⁶C atoms in the sample (N) relative to the initial number of ¹⁴⁶C atoms (N₀) at the time the sample was isolated from the atmosphere:

a ∝ N / N₀

**2. Relate Number of Atoms to Mass:**

The number of ¹⁴⁶C atoms (N) is related to the total mass of carbon (mc) and the mass of a single ¹⁴⁶C atom (ma) through Avogadro's constant (Na):

N = (mc / ma) * Na

**3. Consider Decay and Substitute:**

Over time, ¹⁴⁶C atoms decay with a decay constant (λ). We can express the change in the number of ¹⁴⁶C atoms using the radioactive decay equation:

dN/dt = -λN

Since we're looking for the age (t), we can integrate this equation to find the relationship between N and t:

N(t) = N₀ * e^(-λt)  // (Equation 1)

Substitute N₀ with the initial number of ¹⁴⁶C atoms proportional to the initial ¹⁴⁶C/¹²C ratio in the atmosphere (r * mc / ma * Na):

N(t) = (r * mc / ma * Na) * e^(-λt) // (Equation 2)

**4. Relate Activity and Current ¹⁴⁶C/¹²C Ratio:**

The current activity (a) is also proportional to the current ¹⁴⁶C/¹²C ratio in the sample:

a ∝ (mc / ma * Na) * [N(t) / mc]

Substitute N(t) from Equation 2:

a ∝ (mc / ma * Na) * [ (r * mc / ma * Na) * e^(-λt) ] / mc

**5. Solve for Age (t):**

Cancel common factors and simplify:

a ∝ r * e^(-λt)

Taking the natural logarithm of both sides:

ln(a/r) = -λt

The final expression for the age of the sample [tex]t[/tex] in terms of the given variables is [tex]t = -\frac{1}{\lambda} \ln \left( \frac{a}{\lambda \cdot \frac{m_c \cdot r}{m_a}} \right)[/tex]

Step 1: Understanding Activity

The activity [tex]A[/tex] of a radioactive sample is related to the number of radioactive nuclei present [tex]N[/tex] by the equation:
[tex]A = \lambda N[/tex]
Here, [tex]\lambda[/tex] is the decay constant and represents the probability of decay per unit time.

Step 2: Relating Activity to Carbon-14

Given that the measured activity [tex]a[/tex] of the sample is purely due to [tex]^{14}C[/tex] and can be expressed as:
[tex]a = \lambda N_t[/tex]
Where [tex]N_t[/tex] is the current number of [tex]^{14}C[/tex] atoms in the sample.

Step 3: Finding Original Amount of Carbon-14

If we denote the original number of [tex]^{14}C[/tex] atoms in the sample as [tex]N_0[/tex], this can be related to the total mass of carbon in the sample and the ratio [tex]r[/tex] as follows:
[tex]N_0 = \frac{m_c \cdot r}{m_a}[/tex]
Where [tex]m_a[/tex] is the mass of a single [tex]^{14}C[/tex] atom.

Step 4: Calculating Age

The relationship between current [tex]N_t[/tex], original [tex]N_0[/tex], and time [tex]t[/tex] can be expressed using the formula for exponential decay:
[tex]N_t = N_0 e^{-\lambda t}[/tex]
Thus, rearranging this expression, we find:
[tex]t = -\frac{1}{\lambda} \ln \left( \frac{N_t}{N_0} \right)[/tex]

Step 5: Substituting Values

Substituting in our earlier expressions:
[tex]t = -\frac{1}{\lambda} \ln \left( \frac{N_t}{\frac{m_c \cdot r}{m_a}} \right)[/tex]
This simplifies further to:
[tex]t = -\frac{1}{\lambda} \left( \ln(N_t) - \ln\left(\frac{m_c \cdot r}{m_a}\right) \right)[/tex]
Thus, we can express [tex]t[/tex] as:
[tex]t = -\frac{1}{\lambda} \ln(N_t) + \frac{1}{\lambda} \ln\left(\frac{m_c \cdot r}{m_a}\right)[/tex]
[tex]t = -\frac{1}{\lambda} \ln \left( \frac{a}{\lambda \cdot \frac{m_c \cdot r}{m_a}} \right)[/tex]

Answer: The given statement is false.

Explanation:

When there occurs unrestricted growth and development in number of urban areas for housing, commercial development, roads etc then it is known as urban sprawl.

Hence, when there will be more population in an urban area then there will be more urban sprawl because then there will be more demand for facilities.

Thus, we can conclude that the statement increase in the population of people living in urban areas will cause a decrease in urban sprawl, is false.

Types of Bonds can be predicted by calculating the difference in electronegativity.

If, Electronegativity difference is,

                Less than 0.4 then it is Non Polar Covalent Bond

                Between 0.4 and 1.7 then it is Polar Covalent Bond

                Greater than 1.7 then it is Ionic

For N and Se,

                    E.N of Nitrogen         =   3.04

                    E.N of Selenium        =   2.55

                                                   ________

                    E.N Difference             0.49          (Weakly Polar Covalent)

As you have not provided remaining pairs, so if you have any of them, follow the method as mentioned above.

Pure covalent bond is formed between Br and Br. Polar covalent bonds are formed by O and F, N and Cl, and others. A connection between Sr and O is ionic.

We can take into account the difference in electronegativity between the elements involved to determine the sort of bond—pure covalent, polar covalent, or ionic—between each pair of atoms:

The terms "Br and Br" (bromine and bromine)

Since both atoms are composed of the same element, their electronegativity is the same.

The difference in electronegativity is 0.

Because the identical atoms share the electrons evenly, a pure covalent link is produced.

Oxygen and fluorine, or O and F:

The electronegativity of oxygen (O) is roughly 3.44.

With a value of roughly 3.98, fluorine (F) has a higher electronegativity.

O and F have different electronegativities by 0.54.

This slight difference in electronegativity points to a polar covalent connection, where the electrons are distributed unevenly, leaving the less electronegative atom (O) with a partial positive charge and the more electronegative atom (F) with a partial negative charge.

Nitrogen and chlorine, or N and Cl

The electronegativity of nitrogen (N) is around 3.04.

The electronegativity of chlorine (Cl) is roughly 3.16.

N and Cl have different electronegativities of 0.12 each.

This slight variation in electronegativity suggests a polar covalent connection, similar to that between O and F.

Oxygen and strontium are two elements.

About 0.95 is the electronegativity of strontium (Sr).

With a value of about 3.44, oxygen (O) has a much higher electronegativity.

Between Sr and O, there is a significant difference in electronegativity (3.44 - 0.95 = 2.49).

The creation of Sr²⁺ ions and O₂ ions, which are bound together by electrostatic forces, results from the electrons being transferred from Sr to O in an ionic bond, as indicated by the high electronegativity difference.

To sum up:

Pure covalent bond is formed between Br and Br.

Polar covalent bonds are formed by O and F, N and Cl, and others.

A connection between Sr and O is ionic.

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Final answer:

The bottom carbon atom in acetonitrile has a linear geometry due to the sp hybridization created by two regions of electron density, corresponding to a triple bond with nitrogen and a single bond with another carbon.

Explanation:

The geometry around the bottom carbon atom in acetonitrile is linear. Acetonitrile, which has the formula CH3CN, features a triple bond between the bottom carbon (the carbon atom bonded to the nitrogen) and the nitrogen atom. This carbon is attached to two groups: a nitrogen atom and another carbon (part of the methyl group). The triple bond counts as a single region of electron density due to the presence of multiple bonds to the same atom. Therefore, it only has two regions of electron density, leading to sp hybridization and a linear molecular geometry with the C-C-C and C-C-N bond angles both being approximately 180°.

To find the ionization constant ([tex]K_a[/tex]) of boric acid from its pH of 5.28, calculate the hydrogen ion concentration [tex][H^+][/tex] using the pH, then apply the acid dissociation formula. The [tex]K_a[/tex] of boric acid is found to be 1.74 x [tex]10^{-9[/tex].

The pH of a 0.050 M solution of boric acid is 5.28, and the student is asked to calculate the ionization constant ([tex]K_a[/tex]) of boric acid.

To find [tex]K_a[/tex], we first need to calculate the concentration of hydrogen ions [tex][H^+][/tex] in the solution, which can be derived from the pH value:

pH = -log[tex][H^+][/tex]

5.28 = -log[tex][H^+][/tex]

[tex][H^+][/tex] = 10-5.28

Next, we use the acid dissociation formula for a weak acid like boric acid ([tex]H_3BO_3[/tex]):

[tex]H_3BO_3[/tex](aq) ⇌ [tex]H^+[/tex](aq) + [tex]B(OH)_4^-[/tex](aq)

Assuming the degree of ionization is small and equating the concentration of [tex]H^+[/tex] with that of [tex]B(OH)_4^-[/tex], we get:

[tex][H^+][/tex] = [tex][B(OH)_4^-][/tex]

Therefore:

Ka = [tex][H^+][/tex][tex][B(OH)_4^-][/tex] / [tex][H_3BO_3][/tex]

Ka = (10-5.28)2/0.050 M

Ka = 10-10.56/0.050

Ka = 1.74 x [tex]10^{-9[/tex]

So the Ka of boric acid is 1.74 x [tex]10^{-9[/tex].

Answer: The reaction for the first ionization of Sb is [tex]Sb(g)\rightarrow Sb^+(g)+e^-[/tex]

Explanation: Ionization of an atom is defined as the reaction when an electron is released from an isolated gaseous atom in their gaseous state.

General equation for the first ionization reaction is:

[tex]X(g)\rightarrow X^+(g)+e^-[/tex]

So, from the given choices in the question, only one option represents the first ionization of Antimony atom (Sb-atom), which is [tex]Sb(g)\rightarrow Sb^+(g)+e^-[/tex]

The things that can be done to make the reaction occur quickly include increasing the temperature, grinding calcite, and using catalyst.

In conclusion, these are important in making hydrochloric acid react with the mineral calcite quickly.

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Answer: Option (c) is the correct answer.

Explanation:

A mesh is a kind of net like structure generally used for the purpose of filtration.

Distillation is defined as the method used to separate two liquids with a difference of less than or around [tex]25^{o}C[/tex] in their boiling point.  

So, a liquid with low boiling point will evaporate and its vapors can be collected in a separate container.

Chromatography is defined as a method for separating a mixture by passing it in a solution with the help of a medium where the components of the mixture travel at different rates.

And, filtration is a method used to separate a solid from a liquid by passing through a porous barrier. The solid remain stick to the barrier and liquid passes through the barrier.

A method in which a solid substance is broken down into different parts or fragments is known as fragmentation.

Condensation is a process is in which vapor phase of a substance changes into liquid phase.

Thus, we can conclude that in the given situation John is using the technique of filtration.