Destiny prefers investments that offer the highest possible returns, even if they are risky. Which of the following bonds is Destiny most likely to be interested in?

Answers

Answer 1

Answer:

Since Destiny is mostly interested in higher return, he will hence most likely invest in bonds with very high risk rate. Hence, Destiny will most likely be interested in Junk bond.

Both Municipal and savings bond are usually backed up by the government as as such they are safer to invest in. However, they have low rate of return.

Corporate bonds are usually issued by profit - oriented companies and organizations and have a higher rate of return than municipal and savings bond.

Junk bonds are a form of corporate bond with veryhigh level of risk which is compensated by a very high return rate compared to other corporate bonds. There is a higher tendency that companies that issue junk bonds will default on their debt.

Therefore, Destiny will most likely be interested in a Junkbond.

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Answer 2

Answer:

Options:

- Saving bonds

- Corporate bonds

- Junk bonds

- Municipal bonds

Answer: Junk bonds

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Answers

Global Warming is a gradual increase in the overall temperature of the earth's atmosphere.

So, i believe the answer to your question would be a) a recent increase in the average global temperatures near Earth's surface

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The fuel used in many disposable lighters is liquid butane, C4H10. Butane has a molecular weight of 58.1 grams in one mole. How many carbon atoms are in 4.00 g of butane?

Answers

Matter is made of very tiny particles. One mole of a substance contains a given amount of particles. This number is constant for all particles- 6.022×10^23 , and is called Avogadro's constant. To get the number of particles in 4g of butane, we need to calculate the number of moles represented by 4 g, then multiply by the Avogadro's constant (Since each mole has particles equivalent to the Avogadro's constant)
Therefore, if 1 mole = 58.1g
how many moles will be equal to 4g?
we cross multiply (4x1) divide by 58.1
equals 0.068847moles
multiply by Avogadro constant = 4.1466 x 10^molecules
But remember the question is not about the number of molecules in butane, its about the number of carbon atoms.
Since there are four carbons in butane, and each has 4.1466 x 10^22 atoms
to get the number of atoms, we multiply by four
equals 1.6586 x 10^atoms

$\boxed{1.657 * {\text{1}}{{\text{0}}^{{\text{23}}}}{\text{ atoms}}}$ of carbon is present in 4.00 g of butane.

Further Explanation:

The number of atoms or molecules that can be present in one mole of any substance is determined by a number, known as Avogadro’s number. The numerical value of Avogadro’s number is ${\text{6}}{\text{.022}} * {\text{1}}{{\text{0}}^{{\text{23}}}}\;{\text{units}}$ . Such units can either be atoms or molecules.

The formula to calculate the moles of ${{\text{C}}_{\text{4}}}{{\text{H}}_{{\text{10}}}}$ is as follows:

${\text{Moles of }}{{\text{C}}_{\text{4}}}{{\text{H}}_{{\text{10}}}} = \frac{{{\text{Given mass of }}{{\text{C}}_{\text{4}}}{{\text{H}}_{{\text{10}}}}}}{{{\text{Molar mass of }}{{\text{C}}_{\text{4}}}{{\text{H}}_{{\text{10}}}}}}$ …… (1)

The given mass of butane is 4.00 g.

The molar mass of butane is $58.1 \text{g/mol}.$

Incorporate these values in equation (1).

$\begin{aligned}{\text{Moles of }}{{\text{C}}_{\text{4}}}{{\text{H}}_{{\text{10}}}} &= \left( {{\text{4}}{\text{.00 g}}} \right)\left( {\frac{{{\text{1 mol}}}}{{{\text{58}}{\text{.1 g}}}}} \right)\n&= {\text{0}}{\text{.0688 mol}}\n\end{aligned}$

The number of molecules present in one mole of butane is ${\text{6}}{\text{.022}} * {\text{1}}{{\text{0}}^{{\text{23}}}}\;{\text{molecules}}$ . So the expression to calculate the number of molecules of butane is as follows:

${\text{Molecules of butane}} = \left( {{\text{Moles of butane}}} \right)\left( {{\text{Avogadro's Number}}} \right)$ …… (2)

The number of moles of butane is 0.0688 mol.

The value of Avogadro’s number is ${\text{6}}{\text{.022}} * {\text{1}}{{\text{0}}^{{\text{23}}}}\;{\text{molecules}}$ .

Incorporate these values in equation (2).

$\begin{aligned}{\text{Molecules of butane}}{\mathbf{ }}&=\left( {0.0688{\text{ mol}}} \right)\left( {\frac{{{\text{6}}{\text{.022}} * {\text{1}}{{\text{0}}^{{\text{23}}}}{\text{ molecules}}}}{{{\text{1 mol}}}}} \right)\n&= 4.143 * {\text{1}}{{\text{0}}^{{\text{22}}}}{\text{ molecules}}\n\end{aligned}$

A molecule of butane consists of four carbon atoms in it. So the number of carbon atoms can be calculated as follows:

$\begin{aligned}{\text{Atoms of carbon}}&= \left( {4.143 * {\text{1}}{{\text{0}}^{{\text{22}}}}{\text{ molecules}}} \right)\left( {\frac{{{\text{4 C atoms}}}}{{{\text{1 molecule of butane}}}}} \right)\n&= 1.657 * {\text{1}}{{\text{0}}^{{\text{23}}}}{\text{ C atoms}}\n\end{aligned}$

Learn more:

How many grams of potassium were in the fertilizer? brainly.com/question/5105904
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Answer details:

Grade: Senior School

Chapter: Mole concept

Subject: Chemistry

Keywords: $4.00 \text{g}, 58.1 \text{g/mol},$ butane, C4H10, Avogadro’s number, $1.657*10^22$ C atoms, moles, one mole, chemical formula, carbon atoms, molar mass of C4H10, given mass of C4H10.

What's the process results in a splitting of a nucleus ?

Answers

Nuclear fission is the answer.

i believe it is nuclear fission

In what way is iron unique among the elements?

Answers

Answer:

Explanation:

on is unique among the elements in several significant ways:

Abundance: Iron is one of the most abundant elements on Earth. It makes up a substantial portion of the Earth's core and is also prevalent in the Earth's crust, where it occurs in various minerals.

Nuclear Stability: Iron is unique in terms of nuclear stability. Iron-56 (^56Fe) has the highest binding energy per nucleon (the energy that holds the nucleus together) of any known nuclide. This makes iron-56 particularly stable, and nuclear reactions that either fuse lighter elements into iron or break down heavier elements into iron release energy, making iron a "nuclear sink" for energy.

Transition Metal: Iron is classified as a transition metal. Transition metals are characterized by their partially filled d-orbitals, which contribute to their ability to form colorful compounds and act as catalysts in various chemical reactions.

Magnetic Properties: Iron, along with a few other elements, exhibits strong magnetic properties. It can become magnetized when exposed to a magnetic field and is used in the construction of permanent magnets.

Biological Significance: Iron is essential for many biological processes. It plays a crucial role in transporting oxygen in the blood (hemoglobin and myoglobin), as a cofactor in enzymes involved in energy production (cytochromes), and in various cellular processes. The biological requirement for iron makes it a vital element for living organisms.

Role in Stellar Nucleosynthesis: Iron is a critical element in the process of nucleosynthesis within stars. It is often referred to as the "nuclear bottleneck." Elements lighter than iron are typically fused together in the cores of stars, releasing energy, while elements heavier than iron are created in supernova explosions. Iron is the point at which fusion reactions cease to release energy, making it a crucial boundary in stellar evolution.

Industrial Significance: Iron and its alloys (such as steel) have been fundamental to human civilization for thousands of years. Iron is widely used in construction, manufacturing, transportation, and numerous other industries due to its strength, versatility, and abundance.

Magnetic Resonance Imaging (MRI): Iron's magnetic properties are also exploited in medical technology. In MRI machines, the presence of iron in the body's tissues can be detected and used to create detailed images for medical diagnosis.

These unique characteristics and its widespread presence in the natural world make iron a highly significant and versatile element in both scientific and industrial contexts.

The volume of 6.00M HCl needed to make 319 ml of 6.80M HCl

Answers

Answer : The volume of 6.00 M HCl needed are, 361.5 ml

Solution :

According to the neutralization law,

$M_1V_1=M_2V_2$

where,

$M_1$ = molarity of HCl solution = 6.00 M

$V_1$ = volume of HCl solution = ?

$M_2$ = molarity of another HCl solution = 6.80 M

$V_2$ = volume of another HCl solution = 319 ml

Now put all the given values in the above law, we get the volume of HCl solution.

$(6.00M)* V_1=(6.80M)* (319ml)$

$V_1=361.5ml$

Therefore, the volume of 6.00 M HCl needed are, 361.5 ml

The mole number of the solute after dilution is constant. So the mole number of 319 ml of 6.80 M HCl is 6.80*319*10^(-3)=2.17 mol. So the volume of 6.00 M HCl needed is 2.17/6.00=0.362 L=362 ml.

The primary role of ATP is to _______ by transferring a phosphate group to a molecule and forming ADP.A
provide energy for cellular work

B)

produce heat energy

C)

reduce the activation energy of a reaction

D)

take energy from cellular work

Answers

Answer:

A) provide energy for cellular work

Explanation:

The Adenosine triphosphate (ATP) molecule is the nucleotide known in biochemistry as the "molecular currency" of intracellular energy transfer; that is, ATP is able to store and transport chemical energy within cells. ATP also plays an important role in the synthesis of nucleic acids.

ATP always GIVES ENERGY

Final answer:

The primary function of ATP is to provide energy for cellular work. It does so by transferring a phosphate group to a molecule and forming ADP. This key process drives cellular metabolism and enables life-critical activities.

Explanation:

The key role of ATP, also known as Adenosine Triphosphate, is to provide energy for cellular work. ATP carries out this function by transferring a phosphate group to a molecule. This breaks a high energy bond and forms ADP (Adenosine Diphosphate), releasing energy that can be utilized by the cell to do work.

ATP acts as the primary energy currency of the cell. This process is at the heart of cellular metabolism and is common to all living organisms. Essentially, ATP acts as a bridge, transferring energy from chemical reactions that yield energy to cellular processes that consume energy, such as muscular contraction, cell division, or the synthesis of biomolecules.

Learn more about ATP here:

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