Answer:
t+12
Explanation:
The mathematical expression which represents the phrase *12 meters longer than his throw " is t + 12
Let his throw = t
12 meters longer than his throw can be written using the addition operator :
His throw + 12 meters
Hence, the expression becomes ; t + 12
Therefore, the correct expression for the phrase is t + 12
The Match of the fault type with its appropriate description is given below:
Thrust faults
- Gently dipping faults in which the hanging wall moves up w.r.t. the footwall.
- Most common along convergent plate boundaries.
<h3>What is Thrust faults?</h3>
A thrust fault is a type of reverse fault where the fault plane has a low angle, usually less than 45 degrees, relative to the horizontal. In a thrust fault, the hanging wall moves up and over the footwall, creating a shortening and thickening of the crust. Thrust faults are common in areas of compression, such as convergent plate boundaries or mountain ranges.
Therefore, An example of a thrust fault is the Main Central Thrust in the Himalayas, which resulted from the collision of the Indian and Eurasian plates. The Main Central Thrust has uplifted and folded the rocks of the Himalayan range, creating the highest mountains on Earth."
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In light of this fact, it is best if the firm adjusts its hurdle rate (i.e., cost of capital) upward to compensate for this fact.
<h3>What is hurdle rate?</h3>
A hurdle rate is known to be the lowest rate of return that is needed on a project or any kind of investment.
Note that Some projects do take an undoubtedly result in zero and as such, In light of this fact, it is best if the firm adjusts its hurdle rate (i.e., cost of capital) upward to compensate for this fact.
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Answer:
The molarity of a solution prepared by dissolving 54.3 g of Calcium nitrate into 355 mL of water is 0.9881M
Molarity of solution is the ratio of the number of moles of the substance to the volume.
n is the number of moles of the compound
Mass of calcium nitrate = 54.3g
Molar mass of calcium nitrate = Ca(NO₃)₂ = 164.088 g/mol
Get the required molarity;
Hence the molarity of a solution prepared by dissolving 54.3 g of Calcium nitrate into 355 mL of water is 0.9881M
Explanation:
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