Which organic compound is unsaturated?(1) 2-methylbutane (3) 2-hexanol
(2) 2-chloropropane (4) 2-pentene

Answers

Answer 1

Answer: The answer is (4) 2-pentene. The pentene belongs to olefin and has double bonds between the carbon atoms. And the other three belongs to alkane which don't have double bonds. So the pentene is unsaturated.

Related Questions

How many aluminium atoms are there in the formula for aluminium nitrate ?
Which compound is an exception to the octet rule
I need to know the answer for number two. * I
An ice cube is dropped into boiling water. How will heat flow between the water and the ice cube?
Producers are generally found at the beginning of a food chain. Whichstatement best explains why this is true? *1. Producers are usually smaller in size than consumers.2. Producers do not rely on other organisms for food.3. There are always more consumers than producers in food chains.

A sample of an element is malleable and can conduct electricity. This element could be(1) H (3) S
(2) He (4) Sn

Answers

Answer is: 4) Sn.

Tin (Sn) is only metal in this question and metals are malleable and can conduct electricity.

Metals have metallic bond.

1. Metallic bond is a type of chemical bond.

2. Metallic bond is formed between electrons and positively charged metal ions.

3. Metallic radius is defined as one-half of the distance between the two adjacent metal ions.

4. Metallic bond increace electrical and thermal conductivity.

5. Metals conduct heat, because when free moving electrons gain energy (heat) they vibrate more quickly and can move around.

The answer is (4) Sn. Malleability and conductivity are properties of metals, and Sn is the only metal of the four.

How many protons , electrons, and neutrons are contained in gallium-69?

Answers

In gallium-69, there are 31 protons, and and 31 electrons, if it is an atom of gallium-69. There are 38 neutrons as well.

Final answer:

Gallium-69, an isotope of Gallium, contains 31 protons, 31 electrons and 38 neutrons.

Explanation:

Gallium-69 is a specific isotope of the element Gallium.Gallium is the element with atomic number 31 on the periodic table. This atomic number means that a Gallium atom has 31 protons in its nucleus. Given that in a neutral atom the number of electrons equals the number of protons, we can also deduce that Gallium-69 contains 31 electrons.

The number following the name of the element, 69 in this case, is the isotope's mass number, which is the total number of protons and neutrons that an atom of that isotope contains in its nucleus. To find the number of neutrons in Gallium-69, you simply subtract the number of protons from the mass number. This yields 69 - 31 = 38. Thus, Gallium-69 has 38 neutrons.

Learn more about Gallium-69 here:

brainly.com/question/35245854

#SPJ2

The Haber process can be used to produce ammonia (NH3) from hydrogen gas (H2) and nitrogen gas (N2). The balanced equation for this process is shown below. 3H2 N2 Right arrow. 2NH3 The molar mass of NH3 is 17. 03 g/mol. The molar mass of H2 is 2. 0158 g/mol. In a particular reaction, 0. 575 g of NH3 forms. What is the mass, in grams, of H2 that must have reacted, to the correct number of significant figures? 0. 1 0. 102 0. 10209 0. 1021.

Answers

Answer:

Explanation:

We are given that ammonia can be produced from hydrogen gas and nitrogen gas according to the equation:

$\displaystyle 3\text{H$_2$} + \text{N$_2$} \longrightarrow 2\text{NH$_3$}$

We want to determine the mass of hydrogen gas that must have reacted if 0.575 g of NH₃ was produced.

To do so, we can convert from grams of NH₃ to moles of NH₃, moles of NH₃ to moles of H₂, and moles of H₂ to grams of H₂.

We are given that the molar masses of NH₃ and H₂ are 17.03 g/mol and 2.0158 g/mol, respectively.

From the equation, we can see that two moles of NH₃ is produced from every three moles of H₂.

With the initial value, perform dimensional analysis:

$\displaystyle \begin{aligned} 0.575\text{ g NH$_3$}& \cdot \frac{1\text{ mol NH$_3$}}{17.03\text{ g NH$_3$}} \cdot\frac{3\text{ mol H$_2$}}{2\text{ mol NH$_3$}} \cdot \frac{2.0158\text{ g H$_2$}}{1\text{ mol H$_2$}} \n \n & = 0.102\text{ g H$_2$}\end{aligned}$

*Assuming 100% efficiency.

Our final answer should have three significant figures. (The first term has three, the second term has four (the one is exact), the third term is exact, and the fourth term has five. Hence, the product should have only three.)

In conclusion, our answer is B.

Hydrogen bonding is strongest between molecules of

Answers

i'm not completely sure but i think it's H2O. hope this helps :)

A mixture of CH4 and H2O is passed over a nickel catalyst at 1000 K. The emerging gas is collected in a 5.00-L flask and is found to contain 8.62 g of CO, 2.60 g of H2, 43.0 g of CH4, and 48.4 g of H2O.

Answers

The given question is incomplete. But the complete question is this:

A mixture of $CH_(4)$ and $H_2O$ is passed over a nickel catalyst at 1000 K. The emerging gas is collected in a 5.00-L flask and is found to contain 8.62 g of CO, 2.60 g of $H_2$ , 43.0 g of $CH_(4)$ , and 48.4 g of $H_(2)O$ . Assuming that equilibrium has been reached, calculate $K_(p)$ for the reaction.

Explanation:

As the given reaction is as follows.

$CH_4 + H_2O \rightarrow CO + 3H_2$

And, we know that

No. of moles = $\frac{mass}{\text{molar mass}}$

Therefore, calculate the moles as follows.

Moles of $CH_4$ = $(43)/(16.04)$

= 2.6808 mol

Moles of $H_2O$ = $(48.4)/(18.01528)$

= 2.6866 mol

Moles of CO = $(8.62)/(28.01)$

= 0.307747 mol

Moles of $H_(2)$ = $(2.6)/(2.01588)$

= 1.2897 mol

As, we know that

Concentration = $(moles)/(volume (L))$

Given volume = 5 L

Hence, calculate the concentration of given species as follows.

Conc. of $CH_4 = (2.6875)/(5)$

= 0.5361

Conc. of $H_2O = (2.6889)/(5)$

= 0.5373

Conc. of CO = $(0.307747)/(5)$

= 0.06155

and, Conc. of $H_2 = (1.2897)/(5)$

= 0.2579

Now, expression for equilibrium constant for the given reaction is as follows.

$K_(c) = ([CO][H_2]^(3))/([CH_4][H_2O])$

Now, putting the given values into the above formula as follows.

$K_(c) = ([0.06155][0.2579]^(3))/([0.5361][0.5373])$

$K_(c) = 3.665 * 10^(-3)$

Also, we know that

$K_p = K_c * (RT)^dn$

Consider the equation

$CH_4(g) + H2O(g) \rightarrow CO(g) + 3H_2(g)$

Calculate change in moles of gas as follows.

change in gas moles (dn) = 1 + 3 - 1 - 1

dn = 2

As, $K_p = K_c * (RT)^2$

It is given that,

T = 1000 K, R = 0.0821

So,

$K_p = 3.665 * 10^(-3) * (0.0821 * 1000)^(2)$

$K_p$ = 24.70

Thus, we can conclude that value of $K_(p)$ for the reaction is 24.70.

Is zinc coMpund Plz help me

Answers

Answer:

it is indeed a compound

Explanation:

Zinc is NOT a compound.

A compound contains two or more elements or molecules like H2O. Where H is 1 element and Oxygen is another and together they make a compound.

Zinc itself is a single molecule (or element) and can be used in a compound like ZnO (zinc oxide)

Other Questions

Why might the earths oceans be described as one huge ocean

Biotechnology can be both useful and potentially destructive. Choose one example of biotechnology and identify whether it has had a positive or negative effect on society. Explain your answer.

What is the most polar? A) C-N B) C-O C) C-C D) C-Cl E) C-F

A 250-mL aqueous solution contains 1.56 mc025-1.jpg 10–5 g of methanol and has a density of 1.03 g/mL. What is the concentration in ppm?A 6.1 X 10^-8 ppm B 1.5 X 1-^-5 ppm C 0.061 ppm D 15 ppm