Answer:
debate and voting on the bill, which is then passed or defeated.
Explanation:
This is one of the 10 steps of the procedure of how a bill becomes law. When a committee votes for the bill with all of its comments and amendments, it is sent to the floor. The full committee votes for the bill and if the bill passes, it is being sent to either the House or the Senate. After the debate and approval of amendments, the bill is being voted for or against. If the majority was for the bill, it is then being passed to the other chamber, where there is usually a same routine. If the same version of the bill is approved by both Houses, it is then sent to the President of the United States for a signing. President can choose to sign the bill, to veto it and return it to the House od Representatives with all of his objections, or can choose to ignore the bill. If he ignores the bill, it automatically becomes a law in 10 days.
The Great Compromise solved issues between states with small populations and states with large populations.
The Great Compromise was developed at the Constitutional Convention and helped in creating the modern day structure of Congress. In this deal, both states with small populations and large populations got something they wanted. For example, the Senate would be composed of 2 Senators from each state, regardless of their states population. This helped to ensure that smaller states had a voice in the creation of federal laws.
On the other hand, the House of Representatives would have the number of representatives based on a states population. The greater the population, the more representatives. This made larger states happy, as they felt this accurately represented the power they should have in Congress.
Explanation: idk if this is right because i could not see the statements
but i tried
Everything changed during the Industrial Revolution, which began around 1750. People found an extra source of energy with an incredible capacity for work. That source was fossil fuels — coal, oil, and natural gas, though coal led the way — formed underground from the remains of plants and animals from much earlier geologic times. When these fuels were burned, they released energy, originally from the Sun, that had been stored for hundreds of millions of years.
Coal was formed when huge trees from the Carboniferous period (345– 280 million years ago) fell and were covered with water, so that oxygen and bacteria could not decay them. Instead, the pressure of the weight of materials above them compressed them into dark, carbonic, ignitable rock.
Most of the Earth’s oil and gas formed over a hundred million years ago from tiny animal skeletons and plant matter that fell to the bottom of seas or were buried in sediment. This organic matter was compacted by the weight of water and soil. Coal, oil, and gas, despite their relative abundance, are not evenly distributed on Earth; some places have much more than others, due to geographic factors and the diverse ecosystems that existed long ago.
Early Steam Engines
The story of the Industrial Revolution begins on the small island of Great Britain. By the early 18th century, people there had used up most of their trees for building houses and ships and for cooking and heating. In their search for something else to burn, they turned to the hunks of black stone (coal) that they found near the surface of the earth. Soon they were digging deeper to mine it. Their coal mines filled with water that needed to be removed; horses pulling up bucketfuls proved slow going.
James Watt’s “Sun and Planet” steam engine © Bettmann/CORBIS
To the rescue came James Watt (1736–1819), a Scottish instrument-maker who in 1776 designed an engine in which burning coal produced steam, which drove a piston assisted by a partial vacuum. (There had been earlier steam engines in Britain, and also in China and in Turkey, where one was used to turn the spit that roasts a lamb over a fire.) Its first application was to more quickly and efficiently pump water out of coal mines, to better allow for extraction of the natural resource, but Watt’s engine worked well enough to be put to other uses; he became a wealthy man. After his patent ran out in 1800, others improved upon his engine. By 1900 engines burned 10 times more efficiently than they had a hundred years before.
At the outset of the 19th century, British colonies in North America were producing lots of cotton, using machines to spin the cotton thread on spindles and to weave it into cloth on looms. When they attached a steam engine to these machines, they could easily outproduce India, up until then the world’s leading producer of cotton cloth. One steam engine could power many spindles and looms. This meant that people had to leave their homes and work together in factories.
Early in the 19th century the British also invented steam locomotives and steamships, which revolutionized travel. In 1851 they held the first world’s fair, at which they exhibited telegraphs, sewing machines, revolvers, reaping machines, and steam hammers to demonstrate they that were the world’s leading manufacturer of machinery. By this time the characteristics of industrial society — smoke rising from factories, bigger cities and denser populations, railroads — could be seen in many places in Britain. Hope this helps! Mark brainly please!
I believe its the first answer
