Answer:
The protein is targeted to Golgi apparatus.
Explanation:
Protein targeting or sorting is a process by which synthesized proteins are transported to their appropriate localizations in the cell or outside it. Proteins can be targeted to the inner space of an organelle (such as Golgi apparatus or endoplasmic reticulum) or its membrane, plasma membrane, or to exterior of the cell via secretion.
Usually, protein contains signal sequence on the N terminus that is involved in destination targeting.
Why are proton pumps in root-hair plasma membranes important?
Root-hairs increase the surface area for nutrition absorption. The proton-pumps in root-hair plasma membranes are important in plants is because they carry nutrients into the cell against a strong concentration gradient.
Suppose a white-furred rabbit breeds with a black-furred rabbit and all of their offspring have a phenotype of gray fur. what does the gene for fur color in rabbits appear to be an example of? explain your answer.
deberia ser de los dos de blanco y negros por sus genes
Before being transported, vladek translates a package for another prisoner. this prisoner is now jewish. what other reasons could someone be transported to concentration camps?
Final answer:
The Holocaust targeted not only Jews but also other groups deemed undesirable by the Nazis, including criminals, Romani, and political enemies. Victims faced forced labor, extermination, and inhumane conditions in concentration camps. This systemic persecution highlights the broader aspect of Nazi oppression aimed at creating a 'Jew-Free' Europe.
Explanation:
During the Holocaust, the Nazi regime targeted not only Jews but also various other groups for deportation to concentration camps for reasons beyond religious identity. These groups included regular criminals, perceived enemies of the Nazi state, Romani people, and individuals caught resisting Nazi policies or participating in activities deemed hostile. Concentration camps housed a complex social hierarchy, where non-Jewish German criminals often assumed supervisory roles over Jewish prisoners, who were subjected to forced labor, starvation, and mass executions.
Within the vast network of camps, which encompassed both work and extermination facilities, prisoners were categorized and treated based on their racial, political, or criminal status. The Einsatzgruppen, SS operational squads, played a crucial role in executing enemies and undesirables largely among the Jewish population following the German invasion of Poland. Individuals from occupied territories were forcibly relocated into ghettos before being transported to camps, where many faced inhumane conditions leading to death or were sent directly to gas chambers.
The Holocaust's complexity extends beyond the extermination of Jews, highlighting the broader spectrum of Nazi persecution against those considered undesirable. This systematic oppression and murder demonstrate the regime's attempt to create a Judenrein ("Jew-Free") Europe, which eventually culminated in the mass murder known as the Holocaust.
Why do colds cause us to lose some of our appreciation for the taste of food?
a. cold viruses denature olfactory neurons, thus dulling the perception of taste.
b. the symptoms of colds prevent stimuli from reaching olfactory neurons efficiently, thus dulling the perception of taste.
c. cold viruses lower the firing threshold of olfactory neurons, thus dulling the perception of taste.
d. the symptoms of colds interfere with the stimuli reaching the taste bud receptors, thus dulling the perception of taste.
e. cold viruses raise the firing threshold of olfactory neurons, thus dulling the perception of taste?
What do scientists hope to accomplish using recombinant DNA?
Ability to prevent infectious disease
Replacement of defective genes with normal genes
Easy access to medical treatment for individuals with any genetic disease
Cheaper medications for those with single-gene diseases
The correct answer is: Replacement of defective genes with normal genes
Recombinant DNA molecules are made in laboratory by the methods of genetic recombination such as molecular cloning. The aim of these methods is to bring together genetic material from different sources, creating “combinations” that usually couldn’t be found in the genome. The process of recombination is possible because, DNA molecules from all organisms share the same chemical structure (nucleotides are same among different species, difference is only in the nucleotide sequence).
Scientists hope to accomplish several goals using recombinant DNA technology, including the prevention of infectious diseases, the replacement of defective genes with normal genes, and the development of cheaper medications for single-gene diseases.
Explanation:Scientists hope to accomplish several goals using recombinant DNA technology. One goal is the ability to prevent infectious diseases. This can be achieved by creating vaccines and other preventive measures using recombinant DNA techniques. Another goal is the replacement of defective genes with normal genes. This can potentially cure genetic diseases by replacing the faulty gene with a functional one. Lastly, scientists hope to use recombinant DNA technology to develop cheaper medications for those with single-gene diseases, making medical treatment more accessible.
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The cellular organelle most directly involved in maintaining homeostasis is the _______.
A. plasma membrane
B. cell wall
C. chloroplast
D. mitochondria
Answer:
A
Explanation:
The plasma membrane is significant in regulating the movement of molecules in and out of the cell through processes such as active transport, diffusion, and osmosis. An example is that when the cell becomes dehydrated, water is taken in by osmosis until normal levels are reached. Whenever byproducts of biochemical reactions accumulate in the cell, they are taken out the cell through active transport.
In which layer of the atmosphere does most weather occur?
Answer:
Troposphere
Explanation:
The earth's atmosphere is divided into several layers, namely-
(1) Troposphere
(2) Stratosphere
(3) Mesosphere
(4) Thermosphere
The troposphere is the layer that extends up to a height of about 10 km from the ground surface. In this layer. the temperature decreases with altitude. This is the layer in which all the weather phenomenon takes place. The Oxygen gas this available in this layer that is required by all the living organisms to exist on earth. It also regulates the earth's atmospheric temperature.
Thus, the troposphere is one of the most important layer of atmosphere.
Most weather occurs in the troposphere, the layer closest to the Earth's surface.
Explanation:The troposphere is the lowest layer of Earth's atmosphere, extending from the surface to an average altitude of 7-10 kilometers (4.3-6.2 miles). It contains the majority of Earth's weather, including clouds, precipitation, and temperature changes, making it crucial for supporting life and climate regulation on the planet.
The layer of the atmosphere where most weather occurs is the troposphere. The troposphere is the layer closest to the Earth's surface, extending up to about 12 kilometers above sea level. It is where convection currents are responsible for generating clouds and wind, and where weather events like rain, snow, and storms take place.
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Explain how the size and shape of an animal's body affect its interactions with the environment.
The size and shape of an animal's body play a crucial role in its interactions with the environment, influencing surface area, volume, and adaptation. Understanding how animals' body plans relate to their environments reveals insights into anatomy, physiology, and biological functions.
Size and shape of an animal's body significantly influence its interactions with the environment. The surface area of contact with the environment and the volume of the environment near the organism are controlled by its size and form. For example, animals with a larger surface area relative to their volume have more efficient interactions for tasks like acquiring nutrients and getting rid of waste.
Additionally, animals' body plans are tailored to their specific environment, from deep-sea creatures to desert dwellers. Studying an organism's anatomy and physiology in relation to its environment provides valuable insights into how size, shape, and biological functions are interconnected.
Limits on animal size and shape are imposed by factors such as movement constraints, diffusion processes, and bioenergetics. These factors determine how animals utilize energy, grow, and adapt to varying environmental conditions, showcasing the intricate relationship between an animal's body structure and its surroundings.
Due to the _ of the first small population on one of the island's , the populations _ could have been different from their continental fruit fly ancestors. In hawii the fluit flys
Final answer:
Due to the founder effect and genetic drift, island populations like Hawaii's fruit flies can rapidly diverge genetically from their continental ancestors. Small, isolated populations and environmental changes significantly influence this evolutionary process, illustrating the dynamic nature of species adaptation and speciation.
Explanation:
Due to the founder effect and subsequent genetic drift, the populations of fruit flies on islands could exhibit genetic characteristics significantly different from their continental ancestors. This phenomenon is often observed in isolated environments such as Hawaii, where small initial populations and limited gene flow from the mainland lead to a rapid divergence in genetic traits. The introduction and effects of substances like DDT can further impact these populations by selecting for certain alleles over others, leading to a change in the genetic composition of the survivors compared to the original population.
For instance, founder populations on newly formed islands undergo rapid evolution. Genetic drift, a mechanism of evolution, occurs more swiftly in these small, isolated populations. The introduction of apple trees to the U.S. provided an excellent example of how environmental changes can lead to reproductive isolation and eventual speciation, as seen with the divergence of hawthorn flies into two populations with distinct breeding seasons and dietary preferences.
The situation in Hawaii is a testament to the vulnerability of isolated ecosystems to introduced species and environmental changes, which can dramatically alter the genetic landscape of native populations. The founder effect and genetic drift, illustrated by the fruit fly populations in Hawaii, demonstrate the dynamic nature of evolution on islands.
Explain the various components of the counter-culture movement of the 1960’s.
The counter cultural movement opposed the traditional values imposed by post ww2 USA. They began as beatniks, who later evolved into the hippie movement, who opposed US politicians and wanted equality for everyone.
Final answer:
The counterculture movement of the 1960s involved a rejection of mainstream values, social activism for various rights, the Beat Movement which prioritized spirituality and artistic expression, shifts in popular culture, political radicalization leading to a questioning of progress, and the rise of identity politics.
Explanation:
Components of the Counterculture Movement of the 1960s:
The counterculture movement of the 1960s was a complex phenomenon that involved a diverse range of social, cultural, and political elements. Among these components were:
Alternative Lifestyles: This included a rejection of mainstream values, the pursuit of communal living, and an emphasis on individual freedom and expression.Social Activism: Activism concerning rights for women, racial minorities, and other marginalized groups gained momentum, with movements such as the American Indian Movement and women's liberation.Beat Movement: The beats, or beatniks, disdained capitalism and materialism, prioritizing spirituality, artistic expression, and the use of psychedelic drugs.Popular Culture Shifts: Changes in popular culture, including music, literature, and television, reflected the counterculture ethos.Political Radicalization: Disenchantment with establishment politics led to radical movements and the questioning of America's trajectory towards progress.Identity Politics: A focus on issues relevant to specific subgroups emerged, often rooted in culture, ethnicity, sexual orientation, gender, or religion.Sociologically, the counterculture was influenced by ideas such as those presented by Berger and Luckmann in their book The Social Construction of Reality, which posited that belief systems are determined by societal constructs. Moreover, the counterculture's critique of economic disparity led sociologists to use theoretical approaches, such as conflict theory, to study the movement's dynamics.
The process by which cells that were once mature and differentiated become undifferentiated and immature in appearance and behavior is known as ________.
I would go with anaplasia.
Answer:
Anaplasia
Explanation:
Anaplasia refers to the loss of cell differentiation, which occurs when cells that were previously mature and differentiated become undifferentiated and immature in appearance and behavior. Anaplasia is a fundamental point for the emergence of malignant diseases. Anaplasia is characterized by:
Cellular Pleomorphism: variation of shape and size of cells and their nuclei. Hyperchromasia: very dark colored nuclei. Abundant Mitoses: Indicates Proliferative Activity Polarity Loss: Formation of tumor masses that grow in an unorganized manner. Giant Tumor Cells: They have only one huge single polymorphic nucleus, with two or more nuclei. (Not to be confused with foreign body giant cells or inflammatory Langhans cells)The DNA in a cell’s nucleus encodes proteins that are eventually targeted to every membrane and compartment in the cell, as well as proteins that are targeted for secretion from the cell. For example, consider these two proteins: Phosphofructokinase (PFK) is an enzyme that functions in the cytoplasm during glycolysis. Insulin, a protein that regulates blood sugar levels, is secreted from specialized pancreatic cells. Assume that you can track the cellular locations of these two proteins from the time that translation is complete until the proteins reach their final destinations. For each protein, identify its targeting pathway: the sequence of cellular locations in which the protein is found from when translation is complete until it reaches its final (functional) destination. (Note that if an organelle is listed in a pathway, the location implied is inside the organelle, not in the membrane that surrounds the organelle.)
its the sperm cells and the Phosphofructokinase cells
how does the circulatory system and respiratory system related to ATP and cellular respiration?
The Respiratory system controls the intake of oxygen and the exhale of waste products such as carbon dioxide from our circulatory system. The lungs control the gas exchange between our respiratory system and our circulatory system. Once the nutrients are in the blood stream, the circulatory system, red blood cells and white blood cells and other cells floating through arteries, all controlled by the pumping of the heart. Once the nutrients inhaled by the respiratory system are brought to the cells by the circulatory system (from the pulmonary vein to the heart to the arteries) through the much smaller capillaries, they are used in cellular respiration. The oxygen is used to help the products of glycolysis enter the mitochondria to produce more ATP.
The waste products are then put back into the circulatory system through the capillaries. The circulatory system then takes the nutrients through veins back to the heart where it is then put through the pulmonary artery to the lungs. Once in the lungs gas exchange occurs, expelling the waste products and reoxygenating the blood.
Source: https://sites.google.com/a/student.oprfhs.org/ap-biology-interdependence/interdependence/interdependence-of-the-circulatory-system
Hopefully this helps you with your confusion!
Bacteria that live around deep-sea, hot-water vents obtain energy by oxidizing inorganic hydrogen sulfide belched out by the vents. They use this energy to build organic molecules from carbon obtained from the carbon dioxide in seawater. These bacteria are _____. See Concept 27.3 (Page 579) View Available Hint(s) Bacteria that live around deep-sea, hot-water vents obtain energy by oxidizing inorganic hydrogen sulfide belched out by the vents. They use this energy to build organic molecules from carbon obtained from the carbon dioxide in seawater. These bacteria are _____. See Concept 27.3 (Page 579) chemoautotrophs photoautotrophs chemoheterotrophs photoheterotrophs
The correct answer is: chemoautotrophs
Since these bacteria obtain energy by the oxidation of electron donors (inorganic hydrogen sulfide) in their environments (chemical reactions) we can classify them as chemotrophs. In addition, they synthesize all necessary organic compounds from CO2 so they are autotrophs (opposite from heterotrophs that are unable to fix carbon).
Bacteria that live around deep-sea, hot-water vents and obtain energy by oxidizing inorganic hydrogen sulfide and using this energy to build organic molecules from carbon dioxide in seawater are chemoautotrophs.
Explanation:The bacteria that live around deep-sea, hot-water vents and obtain energy through oxidizing inorganic hydrogen sulfide and using this energy to build organic molecules from carbon dioxide in seawater are chemoautotrophs. Chemoautotrophs are organisms that can use inorganic compounds as a source of energy to convert carbon dioxide into organic matter.
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how can multimedia presentations capture people's attention in a positive way
They end up being entertaining
Which organism has fur and mammary glands, but does NOT have opposable thumbs? A) The lizard B) The salmon C) The hamster D) The chimpanzee
your answer is c. the hamster
Well, neither lizards or salmon have fur so A and B are wrong. The question asks which does not have opposable thumbs. The chimpazee does have them, so the answer is C.
If a drug that was an inhibitor of PP1 activity was ingested by a person
Glycogen phosphorylase would be de-phosphorylated and inactive.
Glycogen phosphorylase would be de-phosphorylated and retain some activity.
Glycogen phosphorylase would remain phosphorylated and inactive.
Glycogen phosphorylase would remain phosphorylated and retain some activity.
The correct answer is: Glycogen phosphorylase would remain phosphorylated and retain some activity.
Glycogen phosphorylase is directly involved in the regulation of glucose levels since it is a glucose sensor in liver cells: when glucose levels are low, phosphorylase is active and it has PP1 bound to it (phosphatase activity of PP1 is prevented). Therefore, there phosphorylase a will accelerate glycogen breakdown.
A student compared DNA replication to making a photocopy of a document . How to best describe the discription ?
The process of DNA replication is akin to making a photocopy, where the original DNA strand acts as the template for a new strand. Like photocopying, replication is very accurate due to proofreading mechanisms, ensuring precise copies of the genetic material leading to the creation of new cells.
Explanation:The comparison of DNA replication to making a photocopy is surprisingly accurate. DNA replication is a biological process that makes copies of DNA. Just like when we photocopy a document, the original (parent) DNA strand serves as a template for the newly synthesized (daughter) DNA strand. This process ensures that every new cell in an organism's body contains the exact same genetic material as the parent cell. The process is semi-conservative by nature because each new DNA molecule includes one strand from the original molecule and one strand that is newly synthesized.
Like a photocopying machine ensures no loss of information in the copied document, DNA replication also has inbuilt mechanisms to minimize errors. An accidental addition of an inappropriate nucleotide during DNA replication can potential impair a gene. Hence, following the synthesis of the new strand, a DNA proofreading process takes place. Special enzymes scan the newly synthesized molecule and correct any mistakes, ensuring an accurate copy is made every time. Once the DNA replication process is complete, the cell is ready to divide.
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Frederick Griffith was one of the leading scientists looking at the genetic role of DNA. He was working on two strains of Streptococcus pneumoniae: The rough strain (R) did not cause pneumonia, but the smooth strain (S) did. When Griffith heat-killed the S strain and gave both the heat-killed S strain and the R strain to mice, the mice developed pneumonia and died. What happened in this experiment that caused the mice to develop pneumonia?The R strain mutated and thus was able to cause pneumonia.There was more of the R strain added than previously.The immune systems of the mice were unable to cope with both the S and R strains simultaneously.Even though the S strain had been heat-killed, it changed the R strain.
The correct answer is: Even though the S strain had been heat-killed, it changed the R strain.
Griffith in his experiment used two strains of bacteria:
• The rough strain (R) which did not cause pneumonia, (nonvirulent)
• the smooth strain (S) which did caused pneumonia (virulent)
When Griffith heat-killed the S strain it did not caused mice to die.
But, when he gave both the heat-killed S strain and the R strain to mice, the mice developed pneumonia and died.
Griffith conclusion was that the R-strain bacteria took what he called a "transforming principle" from the heat-killed S bacteria which transformed the nonvirulent R strain.
nergy used by the body to perform muscular contractions is called adenosine diphosphate, or ADP.TrueFalse
The answer is false.
Energy used by the body to perform muscular contractions and many other energy-required functions is adenosine triphosphate or ATP.
The most important function of ATP is its ability to store and transport chemical energy within cells. That energy can be used for many chemical processes such as muscle contraction, nerve impulse propagation, chemical synthesis.. When consumed in metabolic processes as an energy source, it becomes converted either to adenosine diphosphate (ADP) or to adenosine monophosphate (AMP) because one or two phosphate groups are released (hydrolysis of high-energy bonds).
Since ATP is a nucleoside triphosphate it can be used for the synthesis of nucleic acids.
Anna is reading her psychology text. the activation of receptors in her retina by a source of physical energy is called _____.
sensation 2 - hope this helps!!
B. Which types of rocks are formed underground? (2 points)
C. Which types of rocks are formed above ground? (1 point)
Igneous rocks are formed underground. Sedimentary rocks are formed above ground.
Final answer:
Intrusive rocks such as granite are formed underground, while extrusive rocks like basalt, along with some sedimentary rocks, form above ground.
Explanation:
The types of rocks that are formed underground are known as intrusive rocks, which are a subgroup of igneous rocks. These rocks crystallize slowly beneath the Earth's surface from cooled magma. The slow cooling allows large crystals to form, giving these rocks a coarse-grained texture. An example of an intrusive rock is granite.
On the other hand, rocks that form above the ground are known as extrusive rocks, also a category of igneous rocks. These are formed when magma reaches the Earth's surface and cools rapidly to become solid. Because of the quick cooling, extrusive rocks are generally fine-grained or have a glassy texture. Basalt is a common type of extrusive rock.
Additionally, sedimentary rocks can form above ground through the accumulation of sediments that are compacted and cemented together over time. Metamorphic rocks can form both above and below the ground from pre-existing rocks that are transformed by heat, pressure, or chemical processes.
In what states can hydroelectric power be found? (United States) *will give brainiest!
The hoover dam is a great example! :D
New York has the largest hydroelectricity generation capacity of all states east of the Mississippi River!
PLEASE HELP, BIOLOGY!!!! How can a Mutation lead to Microevolution?
mutation in some eyes is evolution
Mutation, by introducing new genetic material, alongside gene flow and genetic drift, contributes to microevolution by changing allele frequencies within a population, allowing for adaptation and variation over time.
Mutations are changes in the DNA sequence that can create new alleles, providing new genetic material for natural selection. These variations are crucial for microevolution, as they can alter an organism's traits and potentially its fitness within an environment. Gene flow, or the movement of alleles from one population to another, and genetic drift, the random fluctuation of allele frequencies in a population, can significantly contribute to microevolution along with mutation. However, genetic drift and natural selection are often considered the primary drivers of microevolutionary change.
Microevolution involves a change in allele frequencies within a population over generations. This could be caused by a single gene mutation, such as in our example of the peppered moths, where environmental factors favored different alleles over time. Over many generations, these small changes can accumulate, leading to significant evolutionary changes within a species.
Through mutation, gene flow, and genetic drift, these underlying genetic variations can lead to microevolution, altering the prevalence of certain traits within a population and enabling populations to adapt to changing environments.
Which layer of the alimentary canal is responsible for segmentation and peristalsis?
A) Serosa
B) muscularis externa
C) mucosa
D) submucosa
Answer:
B) muscularis externa
Explanation:
Muscularis externa is a muscle layer of gastrointestinal tract (GI)that consists of an inner circular muscular layer and a longitudinal outer muscular layer.
Peristalsis is one-way contraction (followed by relaxation) of muscles found in GI which moves the caudal direction. Peristalsis involves rhythmic contractions of the longitudinal muscles in the gastrointestinal tract, most commonly in the eosophagus.
Segmentation is also process of muscular contractions in the GI. Segmentation involves contractions of the circular muscles in the digestive tract and its function is to move chyme in both directions.
The muscle layer responsible for segmentation and peristalsis in the alimentary canal is the muscularis externa, which comprises an inner circular layer and an outer longitudinal layer.
Explanation:The correct answer to which layer of the alimentary canal is responsible for segmentation and peristalsis is B) muscularis externa. This layer is also known simply as the muscularis. It is composed of two main muscle layers: an inner circular layer and an outer longitudinal layer. Together, these muscle layers are crucial for performing the movements that facilitate the physical breakdown of food (mechanical digestion) and propel the food through the digestive tract.
Segmentation refers to the alternating contractions and relaxations of nonadjacent segments of the intestine. This process breaks apart the food and mixes it thoroughly with digestive juices. Peristalsis, on the other hand, involves rhythmic, wave-like muscle contractions that move the food along the alimentary canal. Both functions are essential for the efficient digestion and transportation of food within the alimentary canal.
Photosynthesis takes place in what to make energy from sunlight to make food in plants
Photosynthesis takes place inside chloroplasts.
Chlorophyll can make food the plant can use from carbon dioxide, water, nutrients, and energy from sunlight. This process is called photosynthesis. During the process of photosynthesis, plants release oxygen into the air. People and animals need oxygen to breathe.
Which two hormones influence the endometrium to thicken and prepare for implantation?
a.) progesterone and follicle stimulating hormone (FSH)b.) progesterone and luteinizing hormone c.) estrogen and luteinizing hormoned.) progesterone and estrogen
The correct answer is: d) progesterone and estrogen
Progesterone is a steroid sex hormone involved in the menstrual cycle, pregnancy, and embryogenesis with a wide range of functions. It is called hormone of pregnancy.
Estrogen is the primary female sex hormone involved in almost all of the phases of the development and regulation of the female reproductive system.
Progesterone and estrogen work together during the luteal phase of the menstrual cycle causing the lining of the uterus to thicken more in order to prepare for possible fertilization.
The hormones that cause the endometrium to thicken and prepare for implantation are progesterone and estrogen. They both contribute to menstrual cycling and endometrial growth.
Explanation:The two hormones that influence the endometrium to thicken and prepare for implantation are progesterone and estrogen.
This can be found in option d.) of your question. These hormones square off for the menstrual cycle.
Estrogen is responsible for thickening the lining of the uterus each month. Progesterone, on the other hand, is released after ovulation by the corpus luteum and continues to increase the thickness of the endometrium whilst also preparing it for potential implantation by a fertilized egg.
The two hormones that influence the endometrium (the lining of the uterus) to thicken and prepare for implantation are progesterone and estrogen. Progesterone helps to build up the endometrium, while estrogen promotes its growth. These hormones are important for the preparation of the uterus for the possible implantation of a fertilized egg.
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Because of the large heat of __________ of water, the evaporation from a liquid surface is a very effective cooling mechanism. The human body makes use of evaporative cooling by __________ to give off energy even when surrounded by a temperature higher than body temperature.
➷ Because of the large heat of vaporization of water, the evaporation from a liquid surface is a very effective cooling mechanism. The human body makes use of evaporative cooling by perspiration to give off energy even when surrounded by a temperature higher than body temperature.
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PLEASE HELP ME WITH THIS QUESTION, IT’S URGENT! 20 POINTS!
Throughly describe the role of the sodium potatasim pump in the nervos system.
ah I remember learning this... So in the cell membrane their are entrances called pumps that force ions (positively charged molecules) to move from low concentration to high concentration. During active transport, which is the process i just described, the sodium potassium pumps job is to move sodium ions ( Na+ ) ions out of the cell and move potassium ions (K+) into the cell.
1. three sodium ions are positioned in the carrier protein.
2. Atp molecule is split that create energy that bonds to the carrier.
3. the pump changes shape and opens up to the outside of the membrane, giving the potassium ions (K+) a chance to come inside. So two potassium ions fit inside and they enter the cell.
4. When the potassium goes inside, the phosphate molecule is released ( What split from the ATP molecule earlier)
If the mass of a material is 92 grams and the volume of the material is 25 cm3, what would the density of the material be?
= 3.68 g/cm³
Explanation;Density is given by dividing the mass of a substance by its volume.
Thus; Density = mass/ volume
In this case; mass = 92 g and Volume = 25 cm³
Therefore;
Density = 92 g/ 25 cm³
= 3.68 g/cm³