Answer:
The ways that European colonization influenced the cultures of South America, Central America, and the Caribbean are:
1. African slaves were brought to these regions.
2. European languages spread throughout these areas.
3. Missionaries developed writing systems for some native languages.
Explanation:
South America, Central America, and the Caribbean (known collectively as Latin America) were colonized mainly by Spain. Portugal and France, through various activities in the region, also had major influences, bringing about the intermingling of various cultural practices to the region. Native American populations were reduced drastically by war and disease. But African slaves were brought to the region by the Europeans to provide free labor in their plantations. As European traders and politicians trooped to this region, they also opened the way for Christian missionaries who wanted to evangelize the natives. This later group helped to develop the writing systems for some native languages.
<span>The orbital period will be 5.196 earth years.
The period of an orbit is proportional to the square root of the cube of the semi-major axis. The semi-major axis of earth is 1 AU (actually 1.000001018 AU, but for this problem 1 is close enough). The hypothetical planet will have a semi-major axis of 3 AU. So making the ratios with earth's year being 1, earth's semi-major axis being 1, the planet's year being y, and the planet's semi-major axis being 3, we get the following ratio.
1 / 1^(3/2) = y / 3^(3/2)
Raise the denominators to the 3/2 powers.
1/1 = y/5.196
Multiply both sides by 5.196
5.196 = y
So the orbit period will be 5.196 earth years.</span>
I predict some more animals will become endangered because they will be loosing their habitat.
An explosion occurs when the timescale for the energy release by some process is much shorter than the timescale on which a system can adjust to damp the energy release process. In the present day Sun, nuclear fusion is a very slow process: on average it takes many billion years for a proton to fuse with another. This timescale is quite temperature dependent, so you might have thought the centre of the Sun might heat up quickly, leading to a runaway "explosion". However, an increase in temperature leads to an increase in pressure that would expand the Sun, reducing the core density and temperature and decreasing the rate of nuclear fusion again. The timescale for the Sun to react in this way is just millions of years, so this acts like a thermostat that keeps the reactions under control.
