Sensory processing disorder is a disorder in which signals from the various sensory organs are processed in the wrong cortical area. It can affect multiple sensory modalities and result in inaccurate processing of sensory information.
Disorder in which the signals from the various sensory organs are processed in the wrong cortical area is known as sensory processing disorder. This disorder can result in sensory information being processed inaccurately or in the wrong part of the brain. It can affect multiple sensory modalities, including touch, vision, hearing, taste, and smell. For example, a person may experience touch sensations as pain or may see colors when hearing certain sounds.
Therefore, sensory processing disorder is a disorder in which signals from the various sensory organs are processed in the wrong cortical area. It can affect multiple sensory modalities and result in inaccurate processing of sensory information.
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A nebula, or swirling cloud of interstellar dust and gases,is seen. What happens next in the star formation procces?
Answer:
The next step in the process is the formation of a prestar core.
Explanation:
After the interstellar dust and gases concentrate in a determined zone gravity starts to unite them and they gather forming a core that is united by gravity. The surroundings start to disperse and the remaining dust starts to expand in the neighboring regions forming different levels of density in dust and gravity force. Which lately will form the satellites, planets or spacial objects that will be bound to the future sun. It is only the second step in the formation of the new star.
Glycogen is an energy-storage molecule in humans. A hormone that is called insulin controls the storage of glycogen in the liver. Insulin is made up of amino acids.
Which statement correctly identifies the types of macromolecules that are described?
Glycogen is a protein, and insulin is a lipid.
Glycogen is a lipid, and insulin is a protein.
Glycogen is a carbohydrate, and insulin is a lipid.
Glycogen is a carbohydrate, and insulin is a protein.
Answer:
Glycogen is a carbohydrate, and insulin is a protein.
Explanation:
Glycogen is a polysaccharide made of thousands of glucose molecules. This is also called ‘animal starch’. The glucose is stored as glycogen in animal cells and humans. Thus, it is a carbohydrate. Insulin is a hormone secreted by beta cells of islets of Langerhans. It is a polypeptide made of amino acids. Thus, it is a protein.
1. Dr. Lairmore makes the point that veterinarians don't just treat "the animal," but approach treatment from a "one health" perspective. What other things are veterinarians looking at, and why?
ANSWER===== They are also looking at interacting on the animal health side and people and environment side because animals usually have owners that are human that the vets have to work with to make the animal better.
The process of science takes place in one specific order. true or false
The process of science does not follow a single specific order, it is complex and nonlinear.
Explanation:The statement that the process of science takes place in one specific order is False. Science is actually a complex endeavor that cannot be reduced to a single, linear sequence of steps. Real science is nonlinear, iterative, creative, unpredictable, and exciting. Scientists often undertake the steps of an investigation in a different sequence or repeat the same steps many times as they gain more information and develop new ideas.
Using the scientific method a what must be tested as the focus of an experiment
Answer:
The correct answer will be- hypothesis.
Explanation:
The scientific method is used to understand and explain the natural events of nature. The scientist performs the sequential steps to reach the conclusion which includes experimentation.
The experiments are performed to test the proposed predictions called "hypothesis" of the scientific question which explains the question to a limit. The hypothesis is based on the earlier research done on the question so is considered a well-educated guess.
Thus, the key component of being tested via experiments is the "hypothesis".
The __________ effect occurs because humans have more cortical neurons that respond to horizontal and vertical orientations than slanted orientations.
If you were preparing nutrient agar at home and did not have an autoclave, what could you use to sterilize the nutrient agar? if you were preparing nutrient agar at home and did not have an autoclave, what could you use to sterilize the nutrient agar? boiling for one hour hydrogen peroxide bleach pressure cooker at 121°c for 15 minutes oven at 121°c for one hour
Which of the following are NOT examples of data?
a.
facts
b.
figures
c.
theories
d.
measurements
Please select the best answer from the choices provided
A
B
C
D
The S-P interval of seismic waves recorded at a seismometer is 8 minutes. Approximately how far away is the earthquake’s epicenter from the seismometer? [equation: (S-P interval) = 0.00146 (distance to epicenter)]
8 km
550 km
5,500 km
less than 1 km
Answer:
5,500
Explanation:
Deficiency in the number of white blood cells is known as
Explain why carbon is essential to all known living things on earth?
One advantage to locomotion in animals is that it provides the animals with an increased ability to
Smells are processed in the ______, which explains why smells often generate emotion-laden memories.
Which area of the brain is associated with classical conditioning and motor movements? the medulla the cerebellum the pons the reticular formation?
The pancreas contains exocrine cells that secrete digestive enzymes into the _______ , and clusters of endocrine cells called pancreatic islets, which secrete insulin and _______ , to regulate blood glucose levels.
Using data from the table above, select the best explanation for why that cell will be able to eliminate waste most efficiently?\
What is the difference between diffusion and active transport in a cell?
What fertility technique extracts ova, combines them with sperm, and after a few days, implants two or three blastocysts into the woman's uterus?
Which abo blood type is considered to be the universal donor?
Andesitic rock is an igneous rock with a composition in between that of basaltic and granitic igneous rock. Please select the best answer from the choices provided T F
The answer to the statement will be true
Are the dehydration and hydration of salts reversible
The dehydration and hydration of salts are reversible processes. They play a significant role in the chemistry of organic compounds and are fundamental to many biological and physical processes.
Explanation:Yes, the dehydration and hydration of salts are reversible processes. These reactions play a significant role in the chemistry of organic compounds. For example, the process of dehydration involves the removal of water from a substance, like when a hydrate loses water to form an anhydrous salt. Conversely, hydration is the addition of water. An example of this would be when an anhydrous salt absorbs water to form a hydrate. This behavior is fundamental to many biological and physical processes.
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Which theories reflect darwin's emphasis on the adaptive value of the behavior?
What causes the Himalayas to continue to grow taller
Which is likely to be the most important contribution of genetic engineering to the practice of selective breeding
N the cross shown here, involving two linked genes, ebony (e) and claret (ca) in drosophila, where crossing over does not occur in males, offspring were produced in this phenotypic ratio: 2 + : 1 ca : 1 e
Final answer:
The question involves the genetic cross of two linked genes in Drosophila, focusing on the phenotypic ratios of offspring without crossing over in males. It encompasses the study of genetics and linked gene inheritance patterns.
Explanation:
The student is inquiring about a genetic cross involving two specific linked genes, ebony (e) and claret (ca), in Drosophila melanogaster (fruit flies). The interest is in understanding the phenotypic ratio of the offspring produced under certain restrictions such as the lack of crossing over in male drosophila. The question seems to focus on the concepts of genetics, linked genes, and Mendelian inheritance as they apply to a practical example in Drosophila.
In the case of the genes mentioned, ebony is a body color gene, and claret is an eye color gene in fruit flies. Since the cross results in a phenotypic ratio of 2 wild-type (+): 1 claret (ca): 1 ebony (e), we can infer that the genes are linked and that the cross was designed to demonstrate the inheritance patterns of these linked genes. Understanding these patterns is essential for revealing how traits are inherited together due to their proximity on the same chromosome. Recombination frequency, which is absent in male Drosophila for these genes, plays a crucial role in inheritance patterns of linked genes.
Compare the dna fingerprint of person 1 and person 2. explain how this fingerprint would have looked different if you had digested the dna of each person with hindiii instead of ecori.
EcoRI and HindIII recognize different sequences of DNI and cut the molecule in different points. For this reason, when digesting the molecule with HindIII, the exposed pattern of minisatellites would have looked different than when using EcoRI.
-------------------------------------------------
A restriction enzyme is a degradative polymer that recognizes and cuts up specific nucleotide sequences in DNI. Restriction enzymes can produce cohesive cuts or blunt (abrupt) cuts, depending on the recognition sites. The frequency in which the restriction enzyme will produce the cuts depends on the recognition sequences and the number of bases that compose them.
EcoRI cuts between G y A. Hind III cuts between A y A.So restriction enzymes cut DNI molecules into different short sequences of varying lengths. These pieces are called minisatellites and exhibit the existing variation from one person to the next. These short sequences can be separated by using gel electrophoresis and will express a pattern of differentiation. These are the restriction fragment length polymorphisms pattern, RFLP. Each individual has a unique pattern of minisatellites, which makes this person different than the rest.
The method used to identify an individual based on the minisatellites patterns in their DNI is known as DNA fingerprinting. Although the difference in base sequences between two individuals is very small, fragments produced by restriction endonucleases are of different sizes.
Because EcoRI and Hind III recognize different sequences and cut sites, they will cut the same molecule in different pieces, resulting in a different pattern.
So, when digesting DNI of person 1 and person 2 with
EcoRI → the short sequences pattern will express certain differences between individuals. HindIII → the exposed pattern will differ from the first one and show other differences. both enzymes together → minisatellites will be even shorter and express a third different pattern.----------------------------------------
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When you are focusing an object under the microscope, explain why some parts are in focus and some parts are out of focus?
Some parts of an object may be in and out of focus under a microscope due to differences in specimen depth and because high magnification lenses require precise focusing. Objective lenses are parfocal, aiding in maintaining focus when switching magnifications, and the eyepiece further magnifies the image to create a clear view for the observer.
Explanation:When you are focusing an object under the microscope, some parts may be in focus while others are out of focus because of differences in depth within the specimen, which is being magnified by the microscope's lenses. The first lens, the objective lens, typically has magnification values from 5x to 100x and is mounted to be parfocal, meaning it keeps the specimen nearly in focus when switching between magnifications. The second lens, the eyepiece or ocular, contains several lenses and works with the objective lens to magnify the object further.
When viewing the specimen, the field of view is limited and dependent on the combination of eyepiece and objective lens used. As the objective lens magnifies the object, the working distance between the lens and the specimen decreases. High magnification lenses require fine adjustments to the focus, using the fine focus knob, to bring a very small and specific area of the specimen into focus.
Lenses focus light at an image point by bending the light waves that pass through them. The focal length of a lens is the distance over which these rays are refracted to a single point, and it can be affected by factors such as lens curvature, the refractive index of the lens material, and the wavelength of the incoming light.
When focusing a microscope, the parts of the object within the depth of field will be in focus, while others will not. Increasing magnification decreases the depth of field, making fewer parts appear clear. Using the fine focus knob helps bring different parts into view.
When you focus an object under a microscope, the parts that are in focus lie within the depth of field of the lens. The depth of field is the range of distance within which objects appear sharp and clear. As you increase magnification, the depth of field decreases, making fewer parts of the specimen appear sharply focused. This is why some parts of the object are in focus while others are out of focus. Using the fine focus knob can help achieve a more precise focus and bring different parts of the object into clear view. Imagine you are observing a leaf under a microscope. At low magnification, you might see the entire leaf surface clearly. However, when you switch to higher magnification to look at the cells, only a thin layer of cells will be in focus while cells above and below that layer appear blurry.
Does oxygen gain or lose electrons to become stable
A client has been diagnosed with aplastic anemia. the nurse is aware that the client’s lab results will identify:
Why does maltose have both alpha and beta anomers?
Maltose is a disaccharide that made of 2 glucose units. Each glucose unit can happen as alpha or beta. So, "α" or "β" is grounded on the relation between the stereochemistry of the anomeric carbon and the furthest chiral center in the ring. The α anomer is the one in which these two locations have the same configuration; they are opposite in the β anomer.
Maltose has both alpha and beta anomers because it is a reducing sugar. The OH group on the anomeric carbon of the second glucose can be in either the alpha or beta position. The alpha and beta anomers of maltose exist in equilibrium in aqueous solution.
Explanation:Maltose has both alpha and beta anomers because it is a reducing sugar. The two glucose molecules in maltose are linked in a head-to-tail fashion through an alpha-1,4-glycosidic linkage. This linkage leaves one anomeric carbon that can open to form an aldehyde group. The OH group on the anomeric carbon of the second glucose can be in either the alpha or beta position. The alpha and beta anomers of maltose exist in equilibrium in aqueous solution.
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