Which best describes how light is produced?

Chemistry

1 answer:

zheka24 [161]3 years ago

4 0

Answer:

What best describes how light is produced is transmit & scatter light

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Which of the following is the best description of how electrons are transferred in an ionic bond?

zavuch27 [327]

The answer which is the best description of how electrons are transferred in an ionic bond is - A metal atom loses electrons and a nonmetal atom gains electrons. W<span>hile forming an ionic bond the metal atom loses electrons to gain a positive charge whereas the non-metal atom gains these electrons and gets a negative charge and then these charges attract and they bond together forming the ionic bond.</span>

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3 years ago

At a given temperature, 3.12 atm of H2 and 5.52 atm of I2 are mixed and allowed to come to equilibrium. The equilibrium pressure

expeople1 [14]

Answer: 0.596

Explanation:

For this problem, we want to find $K_{p}$ . To do so, we will need to use the ICE chart. The I in ICE is initial quantity. In this case, it is the initial pressure. Pressure is in atm. The C in ICE is change in each quantity. The E is equilibrium.

H₂(g) + I₂(g) ⇄ 2HI(g)

I 3.12 5.52 0

C -0.869 -0.869 +1.738

E 2.251 2.251 1.738

<u>For the steps below, refer to the ICE chart above.</u>

1. Since we were given the initial of H₂, I₂ and equilibrium of 2HI, we can fill those into the chart.

2. Since we were not given the initial for 2HI, we will put 0 in their place.

3. For the change, we need to add pressure to the products to make the reaction reach equilibrium. We would add on the products and subtract from the reactants to equalize the reaction. Since we don't know how much the change in, we can use variable x. We know that the equilibrium of 2HI is 1.738, we know the change is 0.869 because 1.738/2=0.869. Since there are 2 moles of HI, we must divide the equilibrium by 2 to find x, so that we can fill that into the reactants side.

4. With the equilibrium values, we can find the equilibrium pressure. It is products over reactants. We use the values of E.

$K_{p} =\frac{[HI]^2}{[H_{2}][I_{2} ] }$