The result of the identification of the graphs is presented as follows;
- <u>Graph A is the graph of the acceleration </u>function
- <u>Graph B is the graph of the velocity </u>function
- <u>Graph C is the graph of the position</u> function
The reasons why the above matching of the graphs are correct are given as follows;
<em>Question: Please find attached, a graph that is related to the question</em>
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From the graphs, we have;
When graph <em>A</em> is negative, the slope of graph <em>B</em> is negative, and the function of graph <em>B </em>is reducing
When graph <em>A </em>is zero, graph <em>B</em> is horizontal
When graph <em>A </em>is at its peak, the slope of graph <em>B </em> is increasing at its fastest rate. Similarly, when graph <em>A</em> is at is lowest point, <em>B</em> is reducing the fastest
Therefore;
- <u>Graph </u><u><em>A </em></u><u>represent the graph of the acceleration</u>, and <u>graph </u><u><em>B</em></u><u> represent the graph of the velocity</u>
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Graph <em>C</em> is reducing only when graph <em>B</em> is negative, and is increasing when <em>B</em> is positive
Therefore;
- <u>Graph </u><u><em>C</em></u><u> is the position graph</u>
Learn more about position, velocity, and acceleration time graphs here;
brainly.com/question/19723617
These are ten Spanish sentences using the <u>present tense:</u>
<u>Part 1:</u>
- Un buen amigo es quien te aconseja.
- Un buen amigo está junto a ti en los malos momentos.
- Un buen amigo es confiable.
- Un buen amigo está siempre listo para la aventura.
- Un buen amigo es único y especial.
Part 2:
- Un buen amigo tiene ganas de pasar tiempo contigo.
- Un buen amigo hace cosas buenas por ti.
- Un buen amigo tiene consejos para darte.
- Un buen amigo escucha tus problemas.
- Un buen amigo dice la verdad.
<u>Present tense</u>
All the sentences are in the Spanish <u>simple present tense</u> (''presente del indicativo'' in Spanish), which is used to talk about habitual situations, routines, universal truths, facts and things happening now or in the near future.
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Based on the calculations, the molar solubility of AgCl in 0. 500 M of NH₃ is equal to 2.77 × 10⁻² M.
<u>Given the following data:</u>
- Ksp of mg(oh)₂ = 1.8 × 10⁻¹⁰
- Concentration of NH₃ = 0.500
- Kf of ag(nh₃)₂⁺ = 1.7 × 10⁷
<h3>How to determine the molar solubility.</h3>
First of al, we would write the properly balanced chemical equation for this chemical reaction:
Ksp = 1.8 × 10⁻¹⁰
Kf = 1. 7 × 10⁷
K = Ksp × Kf
K = 1. 80 × 10⁻¹⁰ × 1.7 × 10⁷
K = 3.06 × 10⁻³
Mathematically, the Ksp for the above chemical reaction is given by:
x = 2.77 × 10⁻² M.
Read more on solubility here: brainly.com/question/3006391