All BUT _____________ directly causes erosion. A) ice B) rain C) wind D) sunlight

Diabetes medications are oral medications called DPP-4 inhibitors

Further explanation

the drug works by blocking the DPP-4 enzyme. This enzyme activates the hormone inkretin in the intestine, which helps the pancreas produce insulin and stops the liver from producing glucose. With the inhibition of DPP-4, inkretin can function optimally so that blood sugar levels can go down. This drug is effective because it can reduce the risk of hypoglycemia up to four times lower and if all drugs are consumed by patients without changing lifestyle, the results are not optimal.

Hypoglycemia is a condition when glucose (blood sugar) levels are below normal. Generally, a person is considered to have hypoglycemia when his blood sugar level is less than 60 mg / dl. Hypoglycemia is one of the acute complications in people with diabetes and is generally associated with the use of drugs from the sulfonylurea group (glibenclamide, glycazazide, glimepiride, glipizide, and tolbutamide) or insulin.

how to treat hypoglycemia:

15 grams of carbohydrates can be some examples of the following intake:

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Class: high school

Subject: biology

Keywords : Hipoglikemia, glucose, hormone

Answer: helium

Explanation:

Nuclear fusion is a process which involves the conversion of two small nuclei to form a heavy nuclei along with release of energy.

The reactions which takes place in sun are:

[tex]_1^1\textrm{H}+_1^1\textrm{H}\rightarrow 1^2\textrm{H}+_{+1}^0\textrm{e}+\text{energy}\\\\_1^2\textrm{H}+_1^1\textrm{H}\rightarrow 2^3\textrm{He}+\text{energy}\\\\_2^3\textrm{He}+_1^1\textrm{H}\rightarrow _2^4\textrm{He}+_{+1}^0\textrm{e}+\text{energy}[/tex]

Overall reaction for the above series of reactions is given by:

[tex]4_1^1\textrm{H}\rightarrow _2^4\textrm{He}+2_{+1}^0\textrm{e}+\text{energy}[/tex]

Thus the fusion of lighter hydrogen nuclei result in formation of heavier nuclei of helium.

Endomysium is the tiny layer of connective tissue that directly surrounds each muscle fiber. It is a sheet of dense irregular connective tissue which draws the entire muscle and defends muscles from abrasion against other muscles and bones. It is also composed of capillaries and nerves.

Answer:

Endomysium

Explanation:

Final answer:

Asexual reproduction allows for rapid and mate-free offspring production, advantageous in stable environments but less so in changing ones due to lack of genetic diversity. Sexual reproduction is slower and requires a mate, yet it offers genetic diversity, which aids survival and adaptation in unpredictable environments.

Explanation:

Advantages and Disadvantages of Sexual and Asexual Reproduction

Animals produce offspring through sexual and asexual reproduction, and both methods come with their own sets of pros and cons. Asexual reproduction results in offspring that are genetic clones of the parent, which means they are well-suited for stable environments but potentially at risk in changing conditions due to the lack of genetic diversity. Sexual reproduction, while more energy-intensive as it requires finding a mate, generates offspring with genetic variation, which can be a significant advantage in unpredictable environments.

The main advantages of asexual reproduction are the ability to quickly produce large numbers of offspring without the need for a mate, which is beneficial for colonization of new habitats and rapid population growth. However, the disadvantage is that offspring lack genetic diversity, making them more vulnerable to environmental changes and diseases. On the flip side, the advantages of sexual reproduction include the production of genetically diverse offspring, which allows for better survival through changing conditions and potential adaptation to new environments.

A rapid evolutionary advantage of sexual reproduction is the enhanced potential for adaptation due to genetic recombination, which asexually reproducing species might lack. However, asexual reproduction can still be advantageous in certain environments and life strategies, illustrating the complexity of these reproductive strategies in the natural world.

Final answer:

The frontal lobe is anterior to the occipital lobe, and the temporal lobe is inferior to the parietal lobe, with each performing distinct functions in cognition and sensory processing.

Explanation:

The frontal lobe is anterior to the occipital lobe, whereas the temporal lobe is inferior to the parietal lobe. When considering the position of the brain's lobes about each other, these directional terms are often used. The frontal lobe is at the front of the brain and is responsible for higher cognitive functions such as thinking, planning, memory, and judgment. The occipital lobe, located at the back of the brain, is primarily responsible for vision. The parietal lobe is situated above the temporal lobe and is concerned with processing sensory information such as bodily sensations and touch, while the temporal lobe is located beneath the parietal lobe and is key for auditory information and language processing.

Answer: cilia regain normal function is indeed the correct answer

Explanation: im taking the test right now

The respiratory system changes which occur when someone quits smoking includes primarily coughing, shortness of breathing pattern, Bronchial hyperresponsiveness, and the ultimate decline in the lungs function.

When a person quits smoking, within the first month after quit smoking, the lung function will improve, which will increase the circulation. Within the period of nine months after quitting smoking, the cilia of the person begins to function normally and the symptoms like coughing and shortness of breath occurs less frequently and improves with time.

Smoking cessation improves the respiratory symptoms in smokers and the bronchial hyperresponsiveness, which prevents the accelerated decline in the lung function, in all the smokers that have or not have the chronic obstructive pulmonary disease.

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Mutations, which are changes in an organism's genetic material, can in some cases have no noticeable effect, in others may cause the development of a more beneficial allele, or conversely may cause the development of a disease-causing allele.

In biology, mutations refer to changes that occur in an organism's genetic material. These changes can have a variety of impacts depending on their nature and location within the genome. In some cases, mutations may have no noticeable effect on an organism. This is often the case with 'neutral' mutations, which occur in non-coding regions of the DNA or do not substantively alter the structure or function of the resulting protein.

However, in some cases, mutations can lead to the development of a more beneficial allele. These beneficial mutations can lead to slight increases in fitness, allowing individuals to better survive and reproduce in their environment. Over time, such mutations may spread through populations via natural selection.

Conversely, mutations can also cause the development of a disease-causing allele. These harmful mutations may lead to illnesses such as genetic disorders or cancer.

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Mutations are changes to an organism's DNA and can have varied effects. They can lead to the development of a more beneficial, harmful, or neutral allele. Mutations drive genetic variation and evolution.

Mutations are essentially changes to an organism's DNA. They can influence an organism in varied ways. A mutation may not have a noticeable effect, or it can lead to the development of a beneficial or harmful allele - the specific form of a gene, slightly different from other forms, that is responsible for different traits.

For instance, the mutation leading to immunity against insecticide in mosquitoes, or the mutation for black color in peppered moths during the Industrial revolution, these were advantageous and improved their chances of survival. Some mutations, however, can lead to the development of disease-causing alleles and can be harmful. On the other hand, some mutations are neutral and do not affect an organism's fitness, implying they neither aid nor hinder an organism's survival or reproduction.

Mutations thereby become the original source of genetic variation, paving the way for evolution. A mutation's impact on evolution can be subtle, unless it interacts with other natural selection factors. To sum up, mutations serve as important mechanisms through which species evolve, by bringing novel genic variance to the gene pool. How a mutation affects an organism depends largely on the nature of the mutation and the environmental context in which the organism lives.

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Prokaryotic cells are cells without a nucleus. They contain DNA in the cytoplasm and have a central region called the nucleoid. Some prokaryotes have plasmids outside the nucleoid, which transfer genes between cells. Prokaryotic cells divide by binary fission and do not have membrane-enclosed organelles.

Prokaryotic cells are cells without a nucleus. The DNA in prokaryotic cells is in the cytoplasm rather than enclosed within a nuclear membrane. Prokaryotic cells are found in single-celled organisms, such as bacteria. The central region in prokaryotic cells where the DNA resides is called the nucleoid region. Some prokaryotic cells also have smaller DNA structures outside the nucleoid region called plasmids, which can transfer genes between cells and carry certain traits. Prokaryotic cells divide by binary fission, do not have membrane-enclosed organelles, and do not sexually reproduce. Instead, the transfer of DNA in prokaryotes happens through a process called conjugation, where only DNA fragments are transferred.

The membranes of a eukaryotic cell vary certain proteins are unique to each membrane. Option A is correct.

Eukaryotic cells share a plasma membrane structure with prokaryotes. The eukaryotic cell plasma membrane is composed of a phosphate bilayer with embedded protein that separates the cell’s internal contents from its environment.

In both prokaryotic and eukaryotic cells, the plasma membrane is composed of a double layer made up of lipids. The double layer is mainly made up of phospholipid lipids.

The plasma membrane acts as a barrier between the outermost compartment of the cell and the inner compartment of the cell.

The plasma membrane is a selectively permeable membrane that allows the transport of only specific molecules into and out of a cell.

Therefore the correct option is option A.

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Final answer:

The intensity of a stimulus is communicated to the brain by varying the frequency or rate of action potential firing; a stronger stimulus produces action potentials more rapidly and activates more receptors.

Explanation:

In the context of sensory receptors, the intensity of the stimulus is communicated to the brain by varying the frequency or rate of action potential firing. This means that an intense stimulus will produce a more rapid train of action potentials compared to a less intense stimulus, which will produce action potentials at a slower rate. In addition to the firing rate, the number of receptors activated also encodes stimulus intensity, where a more intense stimulus activates more receptors.

Since the height of an action potential is constant for a given neuron, it is the speed of the firing rate that conveys the strength of the stimulus to the nervous system. For instance, a bright light will generate more action potentials in rapid succession than a dim light. This is how our sensory system encodes and communicates different intensities of stimuli to the brain for perception and further processing.

It does not have chloroplasts because, unlike many other plants and vegetables, it does not receive direct sunlight.

A potato develops underground because it is a vegetable root. Potatoes may grow in the soil without sunlight as long as they are exposed to it.

Since they are in fact underground stems, they have the capacity to engage in photosynthesis, the process by which plants convert sunlight into food.

Take note of photosynthesis, a technique through which plants can produce their own sustenance. In reality, potatoes are underground stems.

The chloroplasts, the organelles that carry out photosynthesis, remain dormant since they are buried underground and do not receive sunlight.

Therefore, potato cells don't have chloroplasts.

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