A sample contains 10.5 g of the radioisotope Pb-212 and 157.5 g of its daughter isotope, Bi-212. How many half-lives have passed since the sample originally formed?4
14
15
147.5

Answers

Answer 1

Answer:

Answer: The sample must have passed 4 half-lives after the sample was originally formed.

Explanation: This is a type of radioactive decay and all the radioactive process follow first order kinetics.

Equation for the reaction of decay of $_(82)^(212)\textrm{Pb}$ radioisotope follows:

$_(82)^(212)\textrm{Pb}\rightarrow _(83)^(212)\textrm{Bi}+_(-1)^0\beta$

To calculate the initial amount of $_(82)^(212)\textrm{Pb}$ , we will require the stoichiometry of the reaction and the moles of the reactant and product.

Expression for calculating the moles is given by:

$\text{no of moles}=\frac{\text{Given mass}}{\text{Molar mass}}$

Moles of $_(82)^(212)\textrm{Pb}$ left = $(10.5g)/(212g/mol)=0.0495moles$

Moles of $_(83)^(212)\textrm{Bi}=(157.5g)/(212g/mol)=0.7429moles$

By the stoichiometry of above reaction,

1 mole of $_(83)^(212)\textrm{Bi}$ is produced by 1 mole $_(82)^(212)\textrm{Pb}$

So, 0.7429 moles of $_(83)^(212)\textrm{Bi}$ will be produced by = $(1)/(1)* 0.7429=0.7429\text{ moles of }_(82)^(212)\textrm{Pb}$

Amount of $_(82)^(212)\textrm{Pb}$ decomposed will be = 0.7429 moles

Initial amount of $_(82)^(212)\textrm{Pb}$ will be = Amount decomposed + Amount left = (0.0495 + 0.7429)moles = 0.7924 moles

Now, to calculate the number of half lives, we use the formula:

$a=(a_o)/(2^n)$

where,

a = amount of reactant left after n-half lives = 0.0495 moles

$a_o$ = Initial amount of the reactant = 0.7924 moles

n = number of half lives

Putting values in above equation, we get:

$0.0495=(0.7924)/(2^n)$

$2^n=16.0080$

Taking log on both sides, we get

$n\log2=\log(16.0080)\nn=4$

Answer 2

Answer:

Answer:

Explanation:

Edg 2020

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The correct option is False.

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Х
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O C2H2 (ethyne)
O They all have the same number of molecules.
7
1/1 point
fn 35 moles of Iron (Fe)?

Answers

Answer:

6. They all have the same number of molecules.

7. 19.5 g

Explanation:

6. From Avogadro's hypothesis, we understood that 1 mole of any substance contains 6.02×10²³ molecules i.e

1 mole = 6.02×10²³ molecules

Considering the question given above, each compounds has just 1 mole. Thus, they will also have the same number of molecules.

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Number of mole of Fe = 0.35 mole

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Mass of Fe = 19.5 g

Thus, the mass of 0.35 mole of iron (Fe) is 19.5 g

Rust on weathered rocks is caused by _____.saltation
oxidation
hydrolysis
abrasion

Answers

Rust on weathered rocks is caused by the process of oxidation. Oxidation is a process of chemical weathering that occurs when oxygen combines with minerals in rocks. rust occurs when oxygen combines with iron in rocks to form the reddish brown iron oxide.

Answer: The correct answer is oxidation.

Explanation:

Rust is a reddish-brown colored compound which is formed by the oxidation of Iron to form ferric oxide. The formula for this chemical compound is $Fe-2O_3$

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By Stoichiometry,

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How many millimeters (mm) are in 25 meters? Also, pick the choice that shows the correct math work.O Q025 mm; because 25 m x
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1.000 mm
= 0.025 mm
1.000 mm
O 25.000 mm; because 25 m x = 25,000 mm
1 m
25.000 mm; because 25 m X
100 mm
= 2500 mm
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O 0.025 mm; because 25 m x
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100 mm
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Answers

Answer:

25000 mm: because 25 m × 1000 mm /1 m = 25000 mm

Explanation:

We can convert 25 m to millimetre (mm) by doing the following:

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The following mechanism has been proposed for the gas-phase reaction of chloroform (CHCl3) and chlorine. Cl2 ⇌ 2Cl (fast, reversible) Cl + CHCl3 → HCl + CCl3 (slow) Cl + CCl3 → CCl4 (fast) What rate law does this mechanism predict? (Choose from the list below and enter your answers in alphabetical order, e.g. ABC ).

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Answer:

Explanation:

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Chemistry

Q&A Library

The following mechanism has been proposed for the gas-phase reaction of chloroform (CHCl3) and chlorine.Cl2 ⇌ 2Cl (fast, reversible) Cl + CHCl3 → HCl + CCl3 (slow) Cl + CCl3 → CCl4 (fast) What rate law does this mechanism predict?A)kG) [CHCl3]1/2M) [CCl3]2B) [Cl2]H) [CCl3]1/2N) [HCl]2C) [Cl]I) [HCl]1/2O) [Cl2]2D) [CHCl3]J) [Cl2]1/2P) [Cl]2E) [CCl3]K) [Cl]1/2 F) [HCl]L) [CHCl3]2

Question

Asked Oct 30, 2019

2468 views

The following mechanism has been proposed for the gas-phase reaction of chloroform (CHCl3) and chlorine.

Cl2 ⇌ 2Cl (fast, reversible)

Cl + CHCl3 → HCl + CCl3 (slow)

Cl + CCl3 → CCl4 (fast)

What rate law does this mechanism predict?

A)k G) [CHCl3]1/2 M) [CCl3]2

B) [Cl2] H) [CCl3]1/2 N) [HCl]2

C) [Cl] I) [HCl]1/2 O) [Cl2]2

D) [CHCl3] J) [Cl2]1/2 P) [Cl]2

E) [CCl3] K) [Cl]1/2

F) [HCl] L) [CHCl3]2

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Expert Answer

Step 1

The three step mechanism of the given reaction is,

CL2 dissociate to give chorine a fast and reverse reaction.

React with CHCL3 to give HCL and CCL3 a slow reaction

React with CL to give CCL4.

Step 2

Add equation (1), (2), and (3) to get the overall reaction.

The overall reaction is expressed as,

CL2 dissociate to give chorine a fast and reverse reaction.

React with CHCL3 to give HCL and CCL3 a slow reaction

React with CL to give CCL4.

Step 3

The chlorine atom produced in equation (1) is consumed in equation (3) and CCl3 a molecule is produced in equation (2) is consumed in equation (3).

CL react with CHCL3 to give a reversible reaction of HCL and CCL4.

Unicellular organisms are made up of many different cells.

True

False

Answers

False - the answer is in the name. “Unicellular” means one cell.

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A sample contains 10.5 g of the radioisotope Pb-212 and 157.5 g of its daughter isotope, Bi-212. How many half-lives have passed since the sample originally formed?4 14 15 147.5

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A sample contains 10.5 g of the radioisotope Pb-212 and 157.5 g of its daughter isotope, Bi-212. How many half-lives have passed since the sample originally formed?4
14
15
147.5