which organ is involved in ingestion

Genetic Engineering is a technology through which DNA can be altered.  We can alter it either by editing or removing a part of DNA, with the help of this technology.

One of the GE technique is CRISPR-CAS 9 which stands for (clustered regularly interspaced short palindromic repeats and CRISPR-associated protein 9).

Though it is a long race to win but scientists are developing ways to cure genetic disorders in human beings via CRISPR-CAS9.

The best way to help the Earth’s water supply last for future generations is to make factories recycle water.

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Final answer:

Making factories recycle water is the best choice among the given options to help conserve Earth's water supply. Other key strategies include using efficient irrigation systems like drip irrigation, planting native vegetation, installing water-saving devices, and reusing greywater for non-potable purposes.

Explanation:

The best way to help Earth’s water supply last for future generations is to implement practices that promote water conservation and efficient use. Among the options given, making factories recycle water is the best choice, as it can significantly reduce the industrial demand for freshwater by reusing processed water. Additional strategies include efficient irrigation techniques like drip systems emphasized in agriculture to minimize losses due to evaporation, and growing crops in areas where natural rainfall is sufficient thereby reducing dependency on irrigation. The use of native, drought-tolerant vegetation and water-saving devices such as low-flow toilets and faucets can further contribute to conserving water. Rainwater harvesting and the reuse of greywater for non-potable applications can also play an important role. It's crucial that we focus on these water conservation methods as agriculture is the largest user of water, mostly for irrigation, and enhancements in irrigation efficiency are particularly valuable for achieving sustainability in water resources.

Social anxiety disorder is characterized by anxiety and fear of being judged or evaluated. Individuals with social anxiety disorder frequently avoid performance or social functions and they experience a rapid heart rate, nausea, and sweating, and full-blown attacks when confronting a feared situation. For the question given above, the most accurate diagnosis would be social anxiety disorder.

Escherichia, in biological taxonomy, denotes a genus, a level of classification that stands above species and beneath family. It aids in the organized and precise classification of organisms.

In biological taxonomy, Escherichia is a genus. In the hierarchical system of classification, a genus is the rank above species and below family. In the case of Escherichia coli, for instance, 'Escherichia' denotes the genus and 'coli' specifies the species within that genus. This system allows scientists to classify groups of organisms in an organized fashion and denote a particular species accurately.

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1. Protons and neutrons are present in the nucleus of an atom.

2. Boron has a smaller radius and the protons in carbon exert a greater pull.

The nucleus of an atom contains protons, which have a positive charge, and neutrons, which have no charge. Electrons, which have a negative charge, orbit around the nucleus in electron shells.

Boron is located to the left of carbon in the same row of the periodic table. As you move across a row from left to right, the atomic radius generally decreases. Therefore, boron has a smaller radius than carbon.

The protons in carbon exert a greater pull because the effective nuclear charge is higher due to the increased number of protons.

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The term that refers to the combination of all food chains within an ecosystem is the food web. Therefore, option A is correct.

A food web is a graphical representation of the interconnected food chains within an ecosystem. It shows how different species in an ecosystem are connected to each other through their feeding relationships. In a food web, each species is represented as a point, and the arrows between them indicate the direction of energy flow. The arrow points from the prey to the predator.

In a food web, the primary producers, such as plants and algae, form the base of the web, as they are the source of energy. The primary consumers, such as herbivores, eat the primary producers, and the secondary consumers, such as carnivores, eat the primary consumers.

The tertiary consumers, such as top predators, eat the secondary consumers. Decomposers, such as bacteria and fungi, break down dead organic matter and recycle nutrients back into the ecosystem. Thus, option A is correct.

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Nervous system is the organ system that is mostly responsible for generating behavior in multicellular animals. The nervous system coordinates multicellular animal’s behavior and transmits signals within the body.  Specific excitatory and inhibitory substances are produced by the nerve cells for them to interact with each other and certain chemicals, sound and light is detected by the sense organs such as ear and nose which control the behavior and movement of multi cellular animals in their environment.

Ecosystem is defined as an interaction between specific biotic communities (plants, animals, fungi, micro-organisms), along with its abiotic components (water, soil temperature, air, humidity) in a geographic region. Ecosystems on Earth utilizes solar energy and nutrients from the environment. Through various interactions such as food chain and food web, an ecosystem provides food, oxygen and water for all of its living creatures.

1-3. Deoxygenated blood enters the heart through 3 vessels the superior vena cava, the inferior vena cave and the coronary sinus.

(The superior vena cava carries blood from the upper limbs, head and the upper torso. The inferior vena cava carries blood from the lower limbs, the pelvis and the abdomen. The coronary sinus on the other hand carries blood from the coronary circulation, which is the circulation that nourishes the heart wall.)

4. It then enters a chamber called the Right Atrium.

(The right atrium is small and has thin muscle lining. It is one of the two receiving chambers of the heart. It is, as the name suggests, on the right side on the upper area of the heart.)

5. and passes through the tricuspid valve.

(It is also known as the right atrioventricular valve. Its main function is to prevent back flow of blood. It is made up of 3 valves, which look like flaps.) 

6. The blood then enters a chamber called the right ventricle.

(One of the two pumping chambers of the heart. The muscles are thicker than those you would find on the atria.  It is the right lower chamber of the heart)

7. and passes up through the pulmonary semilunar valve.

(It was named as such because this is the valve that opens into the pulmonary circuit. It is sometimes referred to as the pulmonic valve. It also has three cusps. This valve opens during ventricular systole.)  

8. and Pulmonary trunk.

(This is considered as the first vessel of the pulmonary circuit because it is at this point where the blood makes its way to the lungs to be oxygenated. It is also known as the main pulmonary artery. It is one of the major vessels of the human heart.)

9. The area splits into the right and left pulmonary artery.

(The pulmonary arteries are the only arteries in the body that carry unoxygenated blood or deoxygenated blood. They are considered arteries despite this because they carry blood away from the heart.)

10.  Blood then enters the right and left lung where oxygen is picked up.

(As the blood picks up oxygen, it releases carbon dioxide during respiration. The arteries are divided further into really small capillaries, which have extremely thin walls.)

11. The oxygenated blood then reenters the heart through the right and left pulmonary veins.

(Like pulmonary arteries, pulmonary veins are unique because they are the only veins in the body that carry oxygenated blood. They are considered as veins because they carry blood towards the heart.)

12. It enters a chamber called the left atrium.

(The right atrium is the second of the two receiving chambers. It differs from the left because on this side of the heart, it receives oxygenated blood which come from the pulmonary veins.)

13. and passes through the bicuspid valve.

(Named as such because it has two cusps. It is also known as the bicuspid aortic valve, the mitral valve or the left atrioventricular valve. This valve opens during diastole and closes during systole.)

14. The blood then enters a chamber called the left ventricle.

(The left ventricle is the second of the two pumping chambers. It has thicker muscles than the right ventricle because it has to pump blood all around the body. The right ventricle only has to pump blood into the lungs.)

15. and pushes up through the aortic semilunar valve.

(Also known simply as the aortic valve, it has 3 cusps. It opens as the pressure builds up in the left ventricle. As the pressure decreases when systole ends, the aortic valve will close. The opening and closing of the aortic valve makes the second heart sound.)

 16. Blood will then enter the Aorta.

(The aorta is the largest artery in the human body. It has four sections; ascending aorta, aortic arch, descending aorta and abdominal aorta. )

17. If it is going to move to the upper part of the body, blood will exit through the Brachiocephalic trunk,

(The brachiocephalic trunk is the first and the biggest branch of the aortic arch. It splits into smaller arteries called the right common carotid artery and the right subclavian artery. It supplies blood to the right side of the head, neck and right upper limb.)  

18. Left common carotid artery.

(This artery is one of the two carotid arteries. It supplies blood to the left side of the head and the neck. Unlike the right common carotid artery, it stems directly from the aortic arch.)

19. Left subclavian artery.

(The left subclavian artery supplies blood to the upper limbs on the left side of the body. It also stems directly from the aortic arch, unlike its counterpart the right subclavian arteries.

20.  If it is going to the lower part of the body, blood will go through the descending aorta.

(The descending aorta is also called the thoracic aorta. It continues from the aortic arch. It supplies blood to lower half of the body. As it leaves the thorax, it becomes the abdominal aorta)

The answer is: C. The total mass of glucose and oxygen formed from photosynthesis is equal to the total mass of carbon dioxide and water used up during the reaction.

The other options either do not consider the masses of all reactants and products or incorrectly pair the masses of different substances, violating the law of conservation of mass.

Answer: a. rna interference.

Rna interference  was known by other names like  co-suppression  because it has become evident that RNAi has immense potential in inhibiting desired genes  by neutralizing targeted mRNA molecules Two types of small ribonucleic acid (RNA) molecules that are central to RNA interference are  miRNA and siRNA. 

The luteal phase is one of the phases of ovarian cycle (follicular phase and ovulation are the other two). It is the final phase of the ovarian cycle and it corresponds to the secretory phase of the uterine cycle. During this phase, the transformation of the dominant follicle into the corpus luteum is stimulated by pituitary hormones FSH and LH. Corpus luteum produces progesterone which makes the endometrium receptive to implantation of the blastocyst.

The soft palate separates the oral cavity from the nasal cavity when raised and in contact with the pharyngeal wall.

During specific functions like swallowing and speech, the separation between the oral and nasal cavities is crucial.

Answer: Small air sacs.

Explanation:

Varieties of Staphylococcus aureus became resistant to methicillin because they developed specific adaptations that conferred survival advantage in environments where the antibiotic was used extensively. MRSA strains are very difficult to treat due to their resistance to multiple antibiotics, raising significant health concerns.

Varieties of Staphylococcus aureus that are resistant to the drug methicillin developed in response to the use of methicillin and were strongly selected for as methicillin became widely used to treat bacterial infections. This resistance emerged due to the bacteria's ability to acquire a new low-affinity PBP (penicillin-binding protein), which provided resistance to all available β-lactam antibiotics, making certain strains, known as methicillin-resistant Staphylococcus aureus (MRSA), particularly challenging to treat. These strains can cause severe infections including skin and wound infections, pneumonia, and septicemia, and highlight the challenge of antibiotic resistance, which often requires alternative treatment strategies such as TMP/SMZ, clindamycin, tetracycline, or linezolid.