Answer:
I'm going to choose 3 superpowers.
Explanation:
1st:
<em>Invisibility</em>
Who wanted want to literally disappear? I can literally sneak into any area I freely wish for. I can scare anyone I want. Pranking to the extreme.
2nd:
<em>Ability to bend time</em>
I would control time but not where it tears rip into space. It doesn't affect your future.
3rd:
<em>Teleportation</em>
Two words. Time saved. I can literally be on any spot I want.
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This is one GREAT drawing tip that I always tend to use.
To shade:- To make it look like the person has contour, you can shade it with the pencil, then, smudge the place shaded with your finger...(rub on it). We do this so that it could look like a shaded area, it will make it look fabulous!
Try to make it look different:- Don't copy anything anyone makes, try to make it unique by adding shades, cold and warm.
I believe the correct answer is: Apollo.
The pediments of the Temple of Zeus at Olympia are some of the best surviving examples of early Classical Greek sculpture which were completed in 460 BCE. On the west pediment ('centauromachy' – battle between centaurs and the Lapiths) Zeus stands in the center on the east and Apollo on the west. But, Apollo is the deity who brings order to the scene as he is a deity promising to restore order as the deity of rationality and self-control.
Answer:
In this photo, I could see that the woman looks to be deep in thought while two of her children crys on her shoulder. They are wearing very dirty rags. The mother makes me feel sorrow and pity for her children as well as hurt when seeing her children cry. It makes me think about the struggles and adverities we all experience in life as well as what it is like to live in poverty with no one there to help you.
Answer is: Acropolis of Athens, i<span>ncluding the </span><span>Parthenon.
</span>Parthenon (447–432 BC) <span>is a </span>temple,<span> on the </span>Athenian Acropolis<span>, </span><span>dedicated to the </span>goddess Athena.
The golden ratio <span>is a special number approximately equal to 1,618.
</span><span>Pythagorean theorem states that </span>square of the hypotenuse<span> is equal to the sum of the squares of the </span>other two sides.
