Explanation;
noise.
b.
shaking.
c.
up-or-down motion.
d.
movement.
The answer is C. In strike-slip faults, the two crusts on either side of the fault move along each other , horizontally. They are also referred to as lateral or wrench faults. And are caused by horizontal compression. An example of a strike-slip fault is the San Andreas fault.
In India, there are several different breeds of sheep that are native to the country. Some of the major breeds include:
1) Nali: The Nali breed of sheep is found in the states of Rajasthan, Haryana, and Punjab. They are known for their high-quality wool and adaptability to the arid regions of North India.
2) Deccani: The Deccani breed is native to the Deccan plateau in Maharashtra, Telangana, and Andhra Pradesh. They are well adapted to the hot and dry climatic conditions of the region and are primarily raised for meat production.
3) Mandya: The Mandya breed is found in the state of Karnataka. They are medium-sized sheep known for their high milk yield and are primarily reared for dairy purposes.
4) Magra: The Magra breed is predominantly found in the arid regions of Rajasthan. They have a sturdy build, adapted to the harsh desert climate, and are primarily raised for meat and wool production.
5) Gaddi: The Gaddi breed is native to the hilly regions of Himachal Pradesh and Jammu and Kashmir. They are well adapted to the cold and rugged terrains of the Himalayas and are primarily reared for wool production.
These are just a few examples of the different sheep breeds found in India. Each breed has its own unique characteristics and is suited to specific climatic conditions and purposes, such as wool, meat, or dairy production.
The solutions, which have both hydrogen and hydroxide ions in equal number are neutral solution.
In a solution, if the hydrogen and the hydroxide ion are in equal number, they will mask each other's effect. So, all over, the effect of the hydrogen ion or hydroxide ion would be absent. So, the solution would indicate a pH of value 7.
Hence, the given blank can be filled with neutral.
Answer:
The organelle responsible for converting energy from food into a form the cell can use is the mitochondrion.
The organelle responsible for converting energy from food into a form the cell can use is the mitochondrion.
Mitochondria are often referred to as the "powerhouses" of the cell because they produce the energy currency of the cell, called adenosine triphosphate (ATP). This process is called cellular respiration.
Here's how the mitochondria convert energy from food into ATP:
1. The process starts in the cytoplasm of the cell, where glucose molecules are broken down through a process called glycolysis. This step produces a small amount of ATP.
2. The remaining breakdown products from glycolysis are transported into the mitochondria.
3. Inside the mitochondria, these products undergo further breakdown through a series of chemical reactions in a process called the Krebs cycle, also known as the citric acid cycle. This step releases carbon dioxide and transfers energy-rich electrons to carrier molecules.
4. The carrier molecules transfer the electrons to the electron transport chain, located in the inner membrane of the mitochondria. This chain consists of a series of protein complexes that pass the electrons along, releasing energy in the process.
5. As the electrons move through the electron transport chain, the energy released is used to pump protons (hydrogen ions) from the inner compartment of the mitochondria to the outer compartment, creating an electrochemical gradient.
6. The electrochemical gradient drives the synthesis of ATP through a process called oxidative phosphorylation. ATP synthase, an enzyme embedded in the inner membrane, uses the energy from the electrochemical gradient to convert adenosine diphosphate (ADP) and inorganic phosphate (Pi) into ATP.
Overall, the mitochondria play a crucial role in converting the energy stored in food molecules into ATP, which the cell can then use for various cellular processes.