Thunderstorm- a storm with lightning or thunder, and usually produced by cumulonimbus clouds and it also produces a lot of strong winds with heavy rains or hail
Earthquake- a sudden shake or trembling of the ground, a<span>n </span>earthquake<span> is what happens when two blocks of the earth suddenly slip past one another
Volcano- openings in the earth's that creates when molten material </span><span>under the crust is propelled upward though the surface
Tsunami- Like a flood or tidal waves which is caused by displacement of large volume of water.
Flood- Overflow of water that covers land
Drought- when there's less precipitation such as little rain, drought is also water shortage, sometimes occurs on wet land and becomes dry
Bush fire- wildfire that usually happens in Australia's bush.
Avalanche- rapid flow of snow down a hill or mountain
Blizzard- a storm with blowing snow and winds that can reach up to 35 mph and can last for more/less than 3 hour</span>
Answer:
D. Chemical - mechanical - thermal
Explanation:
D because the food is chemical and the mechanical is the human excersice, and it results in thermal
The right answer is C.
Meiosis and fertilization contribute to the stability of the species.
Meiosis ensures the passage of the diploid phase to the haploid phase. It follows a phase of DNA replication and consists of two successive divisions, the second is not preceded by a duplication of DNA. These two divisions lead, from a diploid mother cell (2n chromosomes), to four haploid daughter cells, the gametes (n chromosomes).
Meiosis and fertilization are at the origin of genetic mixing.
During meiosis, intra- and interchromosomal mixing occurs (inducing a genetic diversity between the daughter cells, and they are systematically different from their mother cell).
*Intrachromosomal mixing, or crossing-over recombination, takes place between paired homologous chromosomes during the prophase of the first meiosis division;
*Interchromosomal mixing is due to the independent migration of the homologous chromosomes of each pair during anaphase of the first division. It therefore concerns chromosomes reworked by the intrachromosomal mixing that preceded it.
