Answer:
Sandstone experiences intense heat and pressure.
Explanation:
For the sandstone to transform into metamorphic rock, it needs to experience intense heat and pressure.
Metaphorical rocks are the type of rock that arises from the transformation of other rocks and elements. For them to be formed, it is necessary that several physical-chemical processes occur that involve high values of temperature, humidity and pressure. For this reason, we can say that when the sandstone turns into these rocks, it is because it is being subjected to these factors in an intense and extreme way.
Answer:
High heat and pressure cause the rocks to become metamorphic. presses and presses down onto the rock, making it stay and compress down
secondary
The answer is A. Primary
Asexual reproduction
Mitosis
Replication
The process that can produce a large number of offspring is asexualreproduction, which is present in the second option. Asexualreproduction does not involve any genetic changes and produces identical offspring.
There are two types of reproduction: asexual reproduction, which includes binary fission, and sexual reproduction, which includes genetic diversity due to the meiosis process and genes crossing over. Asexual reproduction does not take as long as sexual reproduction in offspring, as evidenced by bacteria and other organisms. Asexual reproduction produces a large number of offspring in a short period of time with no genetic diversity from the parents as no sex cells or gametes are involved.
Hence, the process that can produce a large number of offspring is asexual reproduction, which is present in the second option.
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: Rationale: A lack of support. It was discovered that Nixon’s advisors had connections to the individuals involved in the burglary at the democratic headquarters. Not long after, Nixon was forced to release transcripts of all his recorded conversations at the White House. Nixon complied, but did not turn over any of the recorded conversations with his advisors. He claimed that as president he had the right to keep discussions with his advisors private. As the case details were released through the media, Americans were shocked to learn that the President might be involved in criminal activity and withdrew their support.
Approximately 90 naturally occurring elements have been found in nature.
Elements are the fundamental building blocks of matter, and they cannot be broken down into simpler substances by chemical means. As of my knowledge cutoff in September 2021, there are 118 known elements in total, with 94 of them being naturally occurring or stable elements. Out of these naturally occurring elements, some are relatively abundant in the Earth's crust and are essential for life, while others are rare and occur in trace amounts.
The most abundant elements in the Earth's crust are oxygen, silicon, aluminum, iron, calcium, sodium, potassium, and magnesium. These elements make up the vast majority of the minerals and rocks that form the Earth's surface.
Some elements, like carbon, hydrogen, nitrogen, and oxygen, are essential for life and are the building blocks of organic compounds, such as carbohydrates, proteins, lipids, and nucleic acids. These elements play a crucial role in the biochemistry of all living organisms.
On the other hand, there are elements that are extremely rare and occur in trace amounts, such as gold, platinum, and iridium. These elements have unique properties and are often valued for their scarcity and various industrial applications.
Elements can be found naturally in various forms, including minerals, ores, gases, and dissolved in water bodies. The study of elements and their properties is central to chemistry, physics, geology, and many other scientific disciplines, as it helps us understand the composition of the Earth, the universe, and the chemical processes that govern our world.
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Answer:
ATP is the energy currency of the cell. The synthesis of ATP occurs during cellular respiration in the cell. This energy is used by cells to perform the different metabolic functions of the cell.
The energy is stored in the terminal phosphoanhydride bonds. This bond is called a high energy bond and when this bond is broken down then this high energy is released in the environment and is used to perform the important functions of cells. After the breakage of the bond, ATP converts into ADP.