The musical elements illustrated include:
Melody: The melody is dée fixe
Texture: homophonic chordal texture
Rhythm: The rhythm is very agitated
<h3>How to illustrate the element?</h3>
The violins and single flute perform it. The bottom string instruments play an aggressive rhythm underneath. The movement does not follow the usual sonata form. Berlioz was more engaged in the idée fixe, which haunted the young artist throughout.
The Religiosamente conclusion features a homophonic chordal texture. The program is the prose that the composer creates to explain the story. Berlioz utilizes a melody to represent a woman throughout the symphony. The woman is referred to as "the beloved," and the song is referred to as the "idée fixe."
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Answer:
The correct answer is: Monumental Scale.
Explanation:
<em>Claes Oldenburg</em><em> uses </em><em>monumental scale</em><em> in his sculptures to express admiration for the little things in everyday life. </em>
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The term 'Monumental sculptures' indicates those sculptures that are in size half-human or above. As the name suggests, they are very large.
The Swedish artists Claes Oldenburg decided to adopt this technique in his art. He wanted to underline the importance of little things, by making them big and visible.
<span>pH = pKa + log ([R-]/[RH])
Where pH is the pH of the buffer, [R-] is the concentration of the basic species, and [RH] is the concentration of the acidic species.
At pH 2.4, the amino group on glycine (pKa = 9.6) will be, for accounts and purposes, 100% protonated. This means our buffer will be dealing with the two ionic forms of the carboxyl group (pKa = 2.4).
When pH = pKa, the two species are in equilibrium. This can be seen using the HH equation:
2.4 = 2.4 + log ([R-]/[RH])
0 = log ([R-]/[RH])
1 = ([R-]/[RH])
[RH] = [R-]
Now we add in another equation, our conservation of mass.
M = [RH] + [R-]
where M is the molarity of the buffer
But since [RH] = [R-]:
M = 2 [RH]
0.2 = 2 [RH]
And we wind up with:
[RH] = [R-] = 0.1 M
Now to figure out the moles of each needed, we multiply by the volume of the buffer.
0.1 M * 0.1 L = 0.01 mol
This shows that to make 100 ml of 0.2 M glycine buffer, we'll need 0.01 mol of each species.
0.01 mol of 0.5 M HCl:
0.5 mol HCl / 1 L = 0.01 mol / v
solve for v
v/1 = 0.01 / 0.5 ==> v = 0.02 L or 20 mL
weight of glycine:
MW: 75.07 g/mol
0.01 mol glycine * (75.07g glycine / 1 mol) = 0.75 g glycine
And there's your answer
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To make this buffer you would add 0.75g glycine to 20 mL of 0.5 M HCl and fill with water until a 100mL volume was achieved.</span>
I would say a conductor, but a conductor only leads orchestra's or choirs.
Answer:
old architectural designs in the cultural communities of the Philippines during the time of the ancient people
Explanation:
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