Assign each characteristic to the appropriate type of muscle fiber.
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Fast twitch:
- few mitochondria (most of the energy comes from acid lactic fermentation)
- low myoglobin content (O2 is not used as the main source of energy)
- shorter twitches
- anaerobic (uses mainly glucose and no O2)
- easily fatigued (as soon as glucose storage finishes fatigue comes in)
- high glycogen content (glucose as the main source of energy and therefore more glucose storage in the form of glycogen)
Slow twitch:
- high myoglobin content (energy comes from O2 and therefore is needed much myoglobin)
- aerobic (uses O2)
- low glycogen content (as O2 is the main source of energy, glucose is not needed as much)
-longer twitches
Fast twitch (type II) and slow twitch (type I) muscle fibres are the two kinds. Fast twitch muscle fibres are distinguished by their capacity to contract quickly despite being highly fatigued, whereas slow twitch muscle fibres are characterised by their capacity to contract for extended periods of time with low degrees of exhaustion.
Running, cycling, and swimming are examples of endurance sports that require slow twitch muscle fibres. They can exert modest levels of effort continuously for a very long time without getting tired.
To maintain balance and posture, slow-twitch muscle fibres are also employed. Sprinting, leaping, and weightlifting are among the activities that predominantly need fast twitch muscle fibres. They can produce a lot of force very rapidly.
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Related Questions
These cells in the cns have cilia that move in order to circulate cerebrospinal fluid ________.
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Ependyma is the cells in the brain that produce cerebrospinal fluid(CSF). The cell is a type of glial cells and located in the ventricular lining of the brain. It also can be found in the central canal of spinal cord. It has cilia that will help the CSF to circulate around the brain.
Ependymal cells are ciliated glial cells in the CNS responsible for circulating cerebrospinal fluid through rhythmic movement of their cilia.
The cells in the CNS that have cilia to circulate cerebrospinal fluid (CSF) are known as ependymal cells. These ciliated columnar cells line the ventricles and central canal of the spinal cord. Ependymal cells have motor properties which allow their cilia to rhythmically beat, creating current that helps circulate the CSF throughout the CNS. They are also involved in forming the CSF by filtering blood through a structure called the choroid plexus.
A scientist is working with methane (CH4) and butane (C4H10). Which statement best compares these chemicals?
They are two different types of molecules that each contain the same number of atoms.
They are two different types of atoms that are each made up of a different number of elements.
They are compounds made of the same two elements, but each contain different numbers of atoms.
They are matter made of the same two compounds, but each contain different types of elements.
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its is c i just did it in ed
Answer : The correct option is, They are compounds made of the same two elements, but each contain different numbers of atoms.
Explanation :
The methane and butane is a hydrocarbon in which the carbon and hydrogen are bonded through covalent bond. Methane and butane are the homologous series of alkane.
Methane and butane are the compounds which is made up of the same elements but each of the compound contains different number of atoms.
In methane [tex](CH_4)[/tex], there are 4 number of hydrogen atoms and 1 number of carbon atom.
In butane [tex](C_4H_{10})[/tex], there are 10 number of hydrogen atoms and 4 number of carbon atoms.
Hence, the best statement is, they are compounds made of the same two elements, but each contain different numbers of atoms.
Select all that apply. The two bones of the lower arm are _____. radius humerus ulna tibia femur
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.
Scientists use specific levels of organization to analyze the biosphere. The Everglades are a large area of subtropical wetlands in Florida. Various species of plants and animals can be found in the Everglades, including panthers, cypress trees, herons, and alligators. mc020-1.jpg The group of ecosystems on Earth that feature climate, vegetation, and wildlife similar to the Everglades is a biosphere. a community. a population. a biome.
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The correct answer is a biome.
Biomes are very enormous ecological regions on the surface of the Earth, with plants and animals amending to their surroundings. They are usually illustrated by abiotic elements like geology, climate, soils, and vegetation. A biome is generally not considered as an ecosystem, however, in a manner, it can appear like a huge ecosystem.
Answer:
The anwser is Biome
Explanation:
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Given the sequence of dna below, what would be the sequence of bases on the daughter strand after dna replication? ggccggctacca
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According to Watson and Crick, in double stranded helical DNA the bases are hydrogen bonded in the following order:
adenine (A) base pairs with thymine (T) through two hydrogen bonds
Guanine (G) base pairs with Cytosine (C) through three hydrogen bonds.
So, if we have a DNA sequence of GGCCGGCTACCA, its corresponding daughter strand will have following sequence i.e., CCGGCCGATGGT
What are some ways each person could reduce air pollution and energy consumption?
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Which tree species is a pioneer species in north american forests?
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Final answer:
In North American forests, pioneer species like annual plants and grasses are the first to recolonize an area after a disturbance, leading to a sequence of ecological succession that culminates in a stable climax community.
Explanation:
A pioneer species is a species that is the first to colonize previously disrupted or damaged ecosystems, beginning a chain of ecological succession that ultimately leads to a more biodiverse steady-state ecosystem. In North American forests, especially after disturbances like forest fires, annual plants are usually the first to grow back, followed by quickly growing and spreading grasses and forbs. As the environment changes due to their growth, other plants, such as birch trees and fireweed, can move in, and organic matter from these species improves the soil. Over time, these are succeeded by intermediate species like shrubs, and small pine, oak, and hickory trees. Eventually, this leads to the formation of a climax community, a stable ecosystem that remains until the next disturbance.
A lung cell maintains homeostasis. Of what is this an example?
A: intercellular communication
B: intracellular communication
C: ion channel-linked receptor
D: enzyme-linked receptor
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The right answer is A: intercellular communication.
An example of intercellular communication is the one between the kidney, liver and lungs to preserve water-soluble homeostasis.
Angiotensinogen, an inactive protein produced by the liver, circulates in the blood. It is the precursor of the active peptides angiotensin I and II, and the only substrate of renin.
In the event of a drop in the pressure in the renal artery, renin (an enzyme sometimes considered as a hormone) is secreted in the kidney by differentiated myoepithelial cells of the arteriole afferent of the juxtaglomerular apparatus. There are also other stimuli promoting renin secretion: decreased natremia in the distal convoluted tubule, ß-agonists, hyperkalemia, PGI2 and stimulation of juxta-glomerular cells by the sympathetic nervous system)
The angiotensinogen is cleaved by the renin and forms a decapeptide called "angiotensin I", inactive.
Angiotensin I will then be converted primarily to angiotensin II by a carboxypeptidase, the angiotensin converting enzyme. This enzyme, secreted by the liver, acts at the pulmonary level.
Answer:
The answer is Intracellular Communication
Explanation:
A lung cell maintains homeostasis is an example of intracellular communication. The concept of intracellular communication includes an anterograde and retrograde signaling network between nucleus and the two organelles, enabling this interactive exchange of information essential for cellular hemostasis.
Important functions of these biomolecules include muscle development, acting in the immune system, and acting as enzymes.
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Proteins help in the development of muscle, acts in the immune system and also as enzymes. They are considered as a class of nitrogenous organic compounds that are comprise of large molecules which contains one or more long chains of amino acids and are a vital portion of all active organisms.
Facility that provides nursing care for residents who have many or severe health problems
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Are biogenic amine neurotransmitters such as dopamine considered to be proteins
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It is a biogenic substance with one or more amine groups, this is called a biogenic amine.
Both mitosis and meiosis begin with a diploid cell that contains replicated chromosomes. Explain the main differences between the two processes and what types of daughter cells produced by each
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meiosis- finishes with 4 daughter cells that are genetically different and half the original dna, n, haploid, the homologous chromosomes are seperated first then the sister chromatids are split up. during prophase 1, the tetrad of homologs cross over giving one way genetic diversity can occur. metaphase 1 has the law of independent assortment which is another way genetic variation occurs
What allows the trachea to stay open and bend?
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What would happen to an enzyme if the temperature and pH changed significantly beyond the enzymes optimum level
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At low temperatures, enzyme reactions are slow. They speed up as the temperature rises until an optimum temperature is reached. After this point the reaction will slow down and eventually stop.
enzyme activity increases steadily between 0 ºC and 40 ºC. It peaks at 40 ºC (the enzyme's optimum temperature) then decreases rapidly.
Enzymes and pHDifferent enzymes work best at different pH values, their optimum pH. Many enzymes work fastest in neutral conditions. Making the solution more acidic or alkaline will slow the reaction down. At extremes of pH the reaction will stop altogether.
Some enzymes, such as those used in digestion, are adapted to work faster in unusual pH conditions. For example, stomach enzymes have an optimum pH of 2, which is very acidic.
enzyme activity increases between pH 4.5 and pH 8. It peaks at pH 8, then decreases.
Dolphins use echolocation to help them navigate. They emit a sound that bounces off objects in front of them. Dolphins are able to navigate their surroundings based on how long it takes the sound to return. What property of waves are dolphins using to help them find their way around their environment?
Answers
The answer is reflection
Answer:
Reflection of sound waves produced by waves
Explanation:
Dolphins are capable to use the echolocation. Echolocation is the ability of an organism to detect sonar waves that allows the dolphin to visualize the path underwater. Dolphins interprets the sound waves echoes that bounce off objects near to them and hence help them in interpreting the route beneath the water. Sound waves travels at a very fast speed in water as compared to the air, therefore reflection of sound waves can be traced quickly for navigating beneath the water.
It is the reflection property of sound waves that helps the dolphin in moving under the water
Infant rats deprived of their mothers' grooming touch produce:
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Infant rats deprived of their mothers' grooming touch can produce depressive-like symptoms during adolescence. Negative early life experiences can alter brain function and lead to behavioral issues later in life. Maternal-infant bonding and social contact are important for healthy development in rats and other animals.
Explanation:Infant rats deprived of their mothers' grooming touch produce depressive-like symptoms during adolescence (Raineki et al., 2012). Research has shown that negative early life experiences, such as abusive treatment or isolation, can alter brain function and lead to behavioral issues later in life (Raineki et al., 2012; Moriceau & Sullivan, 2006; Harlow & Harlow, 1962; Harlow, 1971). This highlights the importance of maternal-infant bonding and social contact for healthy development in rats and other animals.
Describe some advantages and disadvantages of solar energy.
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Solar energy has advantages such as being renewable and environmentally friendly, but it also has disadvantages like intermittency and high initial costs.
Explanation:Solar energy has several advantages and disadvantages. Some advantages include:
Renewable: Solar energy is renewable and abundant, as it comes from the sun.Environmentally friendly: Solar power has minimal impact on the environment and produces no greenhouse gas emissions.Low operating costs: Once installed, solar energy systems have low operating costs and can provide long-term savings.However, there are also some disadvantages:
Intermittency: Solar power is dependent on sunlight, which means it may not be available at all times, especially during cloudy days or at night.High initial costs: The upfront cost of installing solar panels can be expensive, although the long-term savings can offset this.Space requirement: Solar energy systems require a considerable amount of space for installation, which may not be feasible for all locations.
Why is the interphase the longest phase in the cell cycle?
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Interphase is the longest phase in the cell cycle largely due to the various critical processes that occur during this stage, which include cell growth, DNA replication, and preparation for division. These processes are divided among three subphases: G1, S, and G2. The S phase, where DNA replication occurs, is particularly time-consuming, taking up around 10-12 hours. In contrast, the Mitotic phase only lasts approximately 1 hour. The extended time in Interphase ensures accurate duplication of chromosomes and prepares the cell for a successful division.
The length of Interphase can be attributed to the vital activities a cell must undertake to maintain proper function and to prepare for cell division. During the G1 phase, which can last from a few hours to several days, the cell grows, performs its specific functions, and prepares for DNA replication. The S phase is where the entire genomic DNA is replicated which is a complex process and therefore quite lengthy. Following this, in the G2 phase, the cell synthesizes proteins and makes the necessary preparations for mitosis. Since these processes are so crucial and require meticulous work to prevent errors, the interphase generally occupies about 90% of the cell cycle's duration.
In which step of the scientific process is it decided whether the hypothesis has been supported?
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The property of skeletal muscle function that allows recoil after being stretched is
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The property of skeletal muscle function that allows recoil after being stretched is called elasticity.
When a muscle is stretched, it can return to its original length due to its elastic fibers. Besides elasticity, muscle tissue possesses the qualities of extensibility, which allows it to stretch, and contractility, which enables it to pull on its attachment points and shorten with force. Additionally, muscle spindles help regulate this process by sending signals to the central nervous system to contract when stretched, ensuring muscles return to their optimal length.
In 1929 the ____________ made non-invasive study of the brain possible
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Describe how mutations could lead to drug resistance in the RT enzyme. Include physical, molecular, and biochemical reasons.
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Final answer:
Mutations in the RT enzyme can confer drug resistance by modifying the enzyme's structure, hindering drug binding, or altering enzyme affinity for the drug. Physical barriers can also prevent drug penetration, while biochemical changes may enable the enzyme to degrade the drug, rendering it ineffective.
Explanation:
Mutations can lead to drug resistance in the reverse transcriptase (RT) enzyme through several mechanisms, including enzymatic modification of the drug, modification of the antimicrobial target, and prevention of drug penetration or accumulation. For RT inhibitors, mutations in the viral enzyme can alter its structure in such a way that the drug no longer binds effectively, thereby rendering the drug ineffective. This biochemical alteration can result from a direct change in the amino acid sequence of the enzyme that affects its active site or the overall conformation. Moreover, if the RT enzyme undergoes mutation that results in an altered affinity for the antiretroviral drugs, this can also lead to the development of resistance.
Physical changes in the viral envelope can impede drug penetration, preventing the drug from reaching effective concentrations within the viral cell. In the context of molecular changes, mutations in the viral genome can lead to structural changes in the target enzyme that prevent drug binding. Additionally, biochemical mechanisms include the possibility of viral enzymes evolving to degrade the drug, similar to how bacterial enzymes such as ß-lactamases break down antibiotics like ß-lactams.
These resistance mechanisms highlight the complexity and challenge of developing treatments for viral infections such as HIV, where the RT enzyme is a key target. The propensity for rapid mutation and evolution in the viral genome necessitates the use of combination drug therapies to minimize the development of drug-resistant strains.
The layer of epithelial tissue under the fingernail, actually part of the epidermis, is called ________.
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Answer:
The layer of epithelial tissue under the fingernail, actually part of the epidermis, is called nail bed
Explanation:
The nail bed is made of connective tissue and its position is below the nail body. It is the skin under the nail and on this nail bed the nail slides when it grows, it is a modified area of the epidermis located under the nail.
Science is a form of inquiry because scientists trying to understand the world around them start by Select one: a. asking questions. b. collecting data. c. designing experiments. d. forming conclusions.
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Science begins by asking questions to understand the world, followed by collecting data, designing experiments, and forming conclusions. Option: a. asking questions.
a. Science is a form of inquiry because scientists start by asking questions. This initial step is fundamental to the scientific method, as it drives the entire process of inquiry. Questions prompt curiosity and exploration, leading scientists to investigate various phenomena and seek explanations.
b. Collecting data is another crucial aspect of scientific inquiry, but it typically comes after formulating questions. Once scientists have identified what they want to investigate, they gather relevant data through observations, experiments, or other methods to support their inquiries.
c. Designing experiments follows the formulation of questions and the collection of data. Experiments are structured to test hypotheses and gather additional evidence to answer the initial questions posed by scientists.
d. Forming conclusions is the final step in the scientific inquiry process, where scientists analyze the data collected and draw interpretations based on evidence. Conclusions may lead to further questions and inquiries, perpetuating the cycle of scientific exploration.
Therefore, the correct option is a. asking questions.
Amoebas obtain food by wrapping the cell membrane around the food particles, creating a vesicle. The food is then brought into the cell. What is this process called?
A. exocytosis
B. endocytosis
C. osmosis
D. photosynthesis
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Do trees in your area have much chlorophyll in them right now? Do you think the trees in your area will have more or less chlorophyll in three months than they did now? Leaves usually change colors during the fall season. Keep this in mind as you think about questions.
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Answer:
The areas in my area are with less chlorophyll due to winter.
Explanation:
Chlorophyll is a photosynthetic pigment that absorbs light mainly at blue and violet wavelengths, in addition to red. Because of this, it mainly reflects the green light, giving the plants the coloring we know. Some plants do not have the green color in their leaves, this does not mean that the plant does not have chlorophyll, it means that the amount of chlorophyll in these plants is smaller.
Most leaves change color during the winter and this happens by the decrease in the amount of chlorophyll. The accessory pigments of the leaves do not vary significantly and, therefore, their colors come to be seen, making the leaves generally yellowish.
With this we can conclude that folhar that have green coloration has a greater amount of chlorophyll than leaves that have yellowish coloration. For this reason, during the winter and fall the leaves have less chlorophyll.
In a solution of a carbonated beverage, the water is the Blank Space __________.
solute
solvent
saturated
precipitate
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Answer:
b
Explanation:
You are called for a women who is about to deliver. during the labor process, your patient's water breaks. she experiences a rush of warm water and an increase in uterine contractions. the purpose of the amniotic fluid is to:
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Greg is hooked up to an eeg and his brain is producing smooth waves at a rate of about 10 per second. greg is most likely:
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Final answer:
Greg's brain is likely producing alpha waves which indicate a state of relaxed wakefulness or the early stages of sleep, known as stage 1 sleep.
Explanation:
If Greg is hooked up to an EEG (electroencephalogram) and his brain is producing smooth waves at a rate of about 10 per second, Greg is most likely in a state of wakefulness or very relaxed wakefulness. These types of brainwaves are known as alpha waves, which are commonly associated with a state of relaxed alertness, typically with eyes closed, and are present in the frequency range of 8-12 Hz. The presence of alpha waves indicates that Greg is probably not in a deep sleep state but could be in the early stages of sleep, known as stage 1 sleep, where alpha waves are prevalent before transitioning into theta waves as sleep deepens.
Nicoli suffered a stroke in the left hemisphere of his brain. which skill is most likely to have been affected?
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The left hemisphere of the brain is responsible for controlling analytic thought, logic, language, writing, number skills, etc. The left hemisphere of the brain also controls the right side of the body.