Answer:
A. auxiliary verb
Explanation:
Auxiliary verb helps express a meaning that one verb alone could not.
Generally, auxiliary verbs are verbs that can be used to depict grammatical or functional meaning that cannot be expressed by a single verb. Thus, an auxiliary verb is used to express a verb's tense, voice, mood or modality, aspect and emphasis.
Some examples of an auxiliary verb are have, can, will, may, shall, be, must, do, might, could etc.
For instance, "have" in the statement "I have finished my homework."
Answer:
1. Shaka was born about 200 years ago.
2. Do you know why he is famous?
3. The sangoma will make the spear magic.
4. Do you think I am scared? No!
5. We used a chair, stick headbands, and a hammer as props.
6. Shaka was tall, well-built, strong, and a brave soldier.
7. Ngonyama, shh, be quiet.
8. Shaka was widely respected. He was also feared by many.
Explanation: the question was worded really oddly but i tried lol
Here are the answers to the given questions above.
1. The possible settings for works of American literary realism would be the following: American West, <span> post-Civil War South and New England. The answers would be options A, B and C.
2. The given passage above is from </span><span>"The White Heron" by Sarah Jewett. This passage is from the literary genre of literary realism. The answer for this would be option A.
Hope these helps.</span>
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From Keplers discovery, scientists were also able to infer that the closer a satellite is to an object, the stronger the force of attraction, hence it must travel faster in order to maintain orbit. Relying on this formula, we are able to see that the velocity required for orbit is equal to the square root of the distance from the object to the center of the Earth times the acceleration due to gravity at that distance. So if we wanted to put a satellite in a circular orbit at 500 km above the surface (what scientists would call a Low Earth Orbit LEO), it would need a speed of ((6.67 x 10-11 * 6.0 x 1024)/(6900000))1/2 or 7615.77 m/s. So really, a satellites ability to maintain its orbit comes down to a balance between two factors: its velocity (or the speed at which it would travel in a straight line), and the gravitational pull between the satellite and the planet it orbits. If youd like more info on satellites, check out these articles: Orbital Objects List of satellites in geostationary orbit Weve also recorded an episode of Astronomy Cast about the space shuttle.
