Hamilton believed that the federal government had powers to do whatever was "necessary and proper" in exercising leadership beyond its specifically enumerated powers.
A key example was Hamilton's argument for the creation of a national bank, which was not specifically stipulated by the Constitution. Hamilton's argument was based on the "necessary and proper" clause of Article I, Section 8, of the United States Constitution. After enumerating a number of the powers of Congress, including borrowing money, coining money, regulating commerce, etc, Section 8 of Article I closes with by saying Congress shall have power "to make all Laws which shall be necessary and proper for carrying into Execution the foregoing Powers, and all other Powers vested by this Constitution in the Government of the United States, or in any Department or Officer thereof."
Hamilton favored a loose interpretation of the Constitution -- in other words, that the Constitution allows for anything that is not strictly forbidden in what it has expressly stated. A national bank was not strictly listed as something Congress could establish, but there was nothing in the Constitution to prohibit it. And the "necessary and proper" clause gave leeway to create it.
Overall, Hamilton favored a stronger federal government than did some of his peers among the founding fathers.
Answer : Special type of legal treatment that had not been explored properly
Explanation : When Justice Lewis Powell stated that racial and ethnic distinctions require the most “exacting judicial examination,” he meant these qualities required a special type of legal treatment that had not been explored properly.
That everyone thought there was gold everywhere but in reality they weren’t and people started to fights lands
Answer:
5.71 x 10^13 C.
Explanation:
We are given the following parameters or data or information and these data are going to help us in solving this particular Question or problem effectively and efficiently;
=> mass of Earth = 5.98 × 10^ 24kg, mass of Moon = 7.35 × 10^22 kg and the radius of orbit = 3.84 × 10^8m.
Recall that H =( G × m1 × m2) / r^2. where m1 and m2 are the masses of the two bodies amd r is the radius.
We will be making use of the formula below:
the value of Q to maintain the present orbit = √ { ( 7.35 × 10^22 ) × (5.98 × 10^24) × 4 × π × V.
the value of Q to maintain the present orbit = 5.71 x 10^13 C.
