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3 years ago

If silicic rock is found in a core sample, what evidence does this provide about the rock’s location?

Physics

2 answers:

iragen [17]3 years ago

3 0

If silicic rock is found in a core sample, its location is likely underneath an ocean or a mountain.

Answer: Option A

<u>Explanation:</u>

Silicic rock are the type of rocks which are made up of silica and are located at the crust of the earth which is more likely to the core lying underneath and it extends all the way up to 30 km.

Its density is around 2 gm / cm^3 .One of the common example of silica is granite. So if the silicic rocks are found in a core it is more likely underneath the ocean or mountain.

Anni [7]3 years ago

3 0

Answer:

Option (A)

Explanation:

Silicate rocks are usually referred to as those rocks that are highly rich in silica composition. This silicate minerals cover about 90% of the earth's entire crust.

The crust is generally of two types, namely-

Oceanic crust- It is usually considered as Sima, where Silicon and Magnesium are the dominant elements present in it.

Continental crust- Generally, it is considered as Sial, where Silicon and Aluminium are the dominant elements present in the continental crust.

Thus, when a silicic rock is obtained in a core sample, it suggests that the location of this rock must be underneath a mountain or an ocean.

Hence, the correct answer is option (A).

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Answer:

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Xo = 180m

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a= -9,8 m/s2

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X = Vo*t + 1/2 a* $t^{2}$

So:

-180m = 3m/s*t+ 1/2*-9,8 m/s2 * $t^{2}$

To solve this we have

a=-9,8/2

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c=180

The formula is: $(-b +/- \sqrt{b^{2} -4ac}) /2a$

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<u>So the answer a) is t= 6,37 s</u>

With that answer we can find the question b), with the following movement formula.

Vf = Vo + at

Vf = +3 m/s + (-) 9,8 m/s2 *6,37s

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