Answer:
3. Proteins
Explanation:
Enzymes are naturally occurring groups of organic substances of protein origin (they can be form by 62 amino acid residues, such as 4-oxalocrotonate tautomerase enzyme monomer to 2500 residue size) with intra or extracellular activity that have catalyst functions. This is achieved by lowering the activation energy to allow a chemical reaction, resulting in an increased reaction speed and allowing the metabolism of living things. Importantly, although most enzymes are proteins, there are also enzymes consisting of RNA as ribozymes.
Particles may diffuse through all of the following except _______ ?
A. Gasses
B. Liquids
C.Solides
D. Water
Which two organelles are responsible for providing the plant cell with energy?
Which part of the nervous system is the first to work when Joshue feels a raindrop fall on his arm?
Answer:
Sensory neuron
Explanation:
Through the sensory neurons the individual captures stimuli and information from the surrounding environment and from his own body. The stimuli are transmitted as electrical impulses to the central nervous system. In turn, the central nervous system processes information, translating it into sensations and generating responses. This is how we see what is around us, feel when someone pinches us, perceive raindrops falling on our arm, taste the food, among many other sensations.
Fmri scans showed activity in the cingulate cortex, a region of the brain that is active during
The activity that an individual is having when an fMRI can had showed an activity in the cingulate cortex, a region of the brain in which is active is when the individual is going through depression in which is a major depressive disorder that makes a person feel loss of interest when doing his or her daily activities or that he or she has an overwhelming feeling of sadness.
When the gill-withdrawal reflex of the sea snail aplysia has been successfully conditioned to a stimulus such as a squirt of water from a waterpik, observed changes in the neural circuit include: an increase in the number of synapses. a decrease in the number of synapses. cell death?
Photosynthesis relies predominantly on light in the visible and near-infrared region of the electromagnetic spectrum. this light is capable of
A fair, fat, forty-three-year-old woman had been having episodes of griping abdominal pain after fatty meals. one day she ate french onion soup with lots of cheese and suffered severe enough pain that she called in sick. her supervisor pointed out that she always gets sick after fatty foods. she went to the clinic and the nurse in triage took her vitals and history. the nurse noticed that the whites of her eyes were yellow and that she had tenderness on the right side of her abdomen. blood pressure and heart rate were normal. based on this initial assessment, what organs do you think might be involved in this woman's illness, and why? choose the two most likely organs involved in her illness.
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The wind is helpful to prairie grasses because it helps them _____.
start grass fires
carry away dead grass
spread their seeds
keep their leaves dry
Answer: spread their seeds
Prairies are the ecosystems which are considered as a part of the temperate grasslands, shrublands and savannas biome. These biomes are dominated by grasses as vegetation. Wind is a type of pollinating and seed dispersal agent of plants. A wide variety of prairie grasses such as little bluestem, wheat grass, indiana grass, sand love grass use wind as an agent to disperse their seeds.
which area would be most likely to experience a wildfire:a wet area with many lightning strikes,a dry area with few lightning strikes , or a dry area with many lightning strikes ?
Suppose a mutation results in a protein hormone's receptor lacking a binding domain. what is the likely effect of this mutation on the target cell
The nurse is caring for a client with giardia lamblia and anticipates that the provider will order what drug for the treatment of this client's diarrhea?
A confrontation usually takes the form of a(n):
What type of acid base imbalance is likely to develop if the stomach contents are repeatedly lost by vomiting over?
Unlike the discrete waveform from an electrocardiogram, the electromyogram waveform is irregular. why do you suppose this is? answer
The irregular waveform in an electromyogram (EMG) compared to the electrocardiogram (ECG) is due to skeletal muscles contracting asynchronously, unlike the heart which contracts in a coordinated rhythm. The regular pattern of ECG is a result of the coordinated depolarization wave by the SA node across the heart, whereas the EMG captures the chaotic activity of various muscle fibers.
The question asks why the waveform of an electromyogram (EMG) is irregular compared to the discrete waveform of an electrocardiogram (ECG). An ECG is a recording of the electrical impulses of the cardiac muscle, which is coordinated by the sinoarterial (SA) node across the heart, leading to a predictable depolarization and repolarization sequence. This is why ECGs can display a regular pattern reflecting the heart's rhythmic contractions. The depolarization wave sends a coordinated signal across the heart, which results in the distinct P, QRS, and T waves seen on an ECG.
In contrast, an EMG measures the electrical activity of skeletal muscles, which is inherently more chaotic due to the variety of muscle fibers contracting at different times and in response to various stimuli. Unlike the heart muscle, skeletal muscles do not contract in a synchronized rhythm prompted by a single pacemaker, hence the EMG waveform is more irregular. The waveform irregularity is due to the depolarization occurring at various times in different muscle fibers, which is not as coordinated as the depolarization of heart muscle cells.
Understanding EMGs and ECGs requires knowledge of electrical variations, event durations, and complexities of the cardiac function, which can only be comprehended in depth with years of experience. While an ECG can provide a comprehensive picture of cardiac function, it has limitations and does not necessarily reflect pumping effectiveness or detect all myocardial infarctions (MIs).
What is a galaxy? How many galaxies are there and how many stars does each galaxy hold?
The sides of a composite-cone volcano have which feature?
Yes, the correct answer is Fumaroles!!
Which of these materials or structures would be found in greatest amounts or numbers at e?
What two recurring events in Earth’s history have an impact on the carbon cycle?
The carbon cycle, vital for life on Earth, is significantly impacted by the burning of fossil fuels and human animal farming practices. These human activities contribute to high levels of CO2 in the atmosphere, disrupting the carbon balance and leading to climate change.
Explanation:Two recurring events in the Earth's history significantly impact the carbon cycle, which comprises two interconnected sub-cycles dealing with the rapid carbon exchange among living organisms and the long-term cycling of carbon through geologic processes.
Firstly, the burning of fossil fuels, accelerated since the 1800s with the onset of the Industrial Revolution, has caused a substantial increase in atmospheric CO2 levels. The combustion of these fuels—derived from ancient plant remains, hence an enormous stockpile of carbon—emits carbon dioxide into the atmosphere thus disrupting the carbon equilibrium.
Secondly, animal husbandry and farming practices contributed by humans have indirectly affected carbon levels. Raising large numbers of animals generates significant amounts of CO2 and methane, another potent greenhouse gas. Both these human-induced processes have been linked to climate change and pose a serious global environmental concern.
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Cytotechnologists may examine cells for abnormalities or disease.
a. True
b. False
Answer:
the answer isnt fase
Explanation:
A relationship in which one organisms benefits while the other is not harmed but doesn’t not benefit either is called
A) predation
B) parasitism
C) commensalism
D) mutualism
The majority of photosynthesis performed on the planet is done by
A sedimentary rock containing a fossilized sea shell had been found. What does this tell you about the area at the time the rock was formed?
A. The area was under water.
B. The area was cold.
C. The area was muddy and wet.
D. The area was hot and tropical.
The answer is a because the text says that ist was fossiized and this most likely means it was in an area with water.
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As the sedimentary rock containing a fossilized sea shell had been found it means the area was under water. The correct option is A.
What is sedimentary rock?Sedimentary rocks form from pre-existing rock deposits or fragments of once-living organisms that accumulate on the Earth's surface.
When sediment is deeply buried, it becomes compacted and cemented, resulting in sedimentary rock.
Chemical sedimentary rocks can be found in a variety of environments, including the ocean, deserts, and caves.
Most Likely Locations Sedimentary rocks are most commonly found near water sources, which is where a lot of erosion occurs.
Different types can be found in riverbeds, ponds, and coasts, as well as throughout the oceans.
The discovery of a sedimentary rock containing a fossilized sea shell indicates that the area was once under water.
Thus, the correct option is A.
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During the winter months water on the surface of a pond will typically freeze and this ice acts as an insulator for the water but need that as a result aquatic life is able to survive during the cold winter. The reason that this water expands upon freezing is due to:
A. the hydrogen bonding that creates its hexagonal shape
B. Water molecules being soluble in any polar solvent
C. It really high heat of vaporization
D. Low molecular mass
When water freezes, the hydrogen bonding that creates its hexagonal shape causes the water molecules to expand out and take up more volume. As a result, its less dense than liquid water and it floats.
You continue your analysis by crossing the aberdeen white and victoria white lines. this time you count the actual numbers of progeny in the two f2 phenotypic classes. cross between aberdeen white and victoria white you also self several wild-type plants from the f2 and determine that some of them are pure-breeding. what can you conclude from these results?
Answer:
a) aa g) wild type m) a^Ya^Y s) white
b) VV h) white n) VV t) white
c) AA i) white o) Aa^Y
d) vv j) white p) Vv
e) Aa k) AA q) wild type
f) Vv l) vv r) yellow
Explanation:
**refer to image below for further clarification - all rights reserved to Mastering Genetics Pearson**
Final answer:
The results of crossing the Aberdeen White and Victoria White plant lines, with the observation of a 3:1 ratio of wild-type to white in the F2 progeny and the existence of pure-breeding wild-type plants, support Mendelian inheritance patterns, suggesting dominant and recessive traits with some F2 plants being homozygous dominant.
Explanation:
The scenario provided involves crossbreeding the Aberdeen White and Victoria White plant lines, which is an example of a Mendelian genetics experiment. When the F2 progeny (the second generation of offspring from crossbreeding) exhibits a 3:1 ratio of wild-type (commonly dominant) to white (recessive) phenotypes, and some of the F2 wild-type plants are pure-breeding, it indicates the inheritance of dominant and recessive traits akin to Mendel's findings with flower color in pea plants.
Mendel's experiments showed that when true-breeding plants with different traits are crossed, the F1 generation will uniformly express the dominant trait. However, upon self-pollinating the F1 generation and obtaining the F2 generation, the recessive trait would reappear in a predictable 3:1 ratio. In the case of the student's experiment, the presence of pure-breeding wild-type plants suggests that some of the F2 plants were homozygous for the wild-type allele.
Given that some F2 wild-type plants are pure-breeding, we can conclude that the wild-type trait is dominant and some F2 individuals are homozygous dominant. This is because the white trait did not appear in the progeny of these pure-breeding plants, indicating they carry two copies of the dominant allele and none of the recessive allele responsible for the white coloration.
Which of the following BEST distinguishes the relationship between war and agriculture?
A. War is hard on the agriculture industry because many farmers are drafted into the military, decreasing food production.
B. War takes a severe toll on agriculture because some land becomes unsafe for growing crops, and remaining farms often overproduce and cause depletion.
C. War often causes farmers to look to new technology to help yield enough food to feed an entire country as well as the country’s troops overseas.
D. War is a very profitable time for the agriculture industry, and farmers are able to provide massive amounts of food with little damage to the environment.
Answer:
C.
Explanation:
War often causes farmers to look to new technology to help yield enough food to feed an entire contry as well as the countrýs troops overseas.
War is one of the events where technology avances faster. More food is needed at a faster rate to produce, so technolgy should make this possible
The secondary form of inheritance via epigenetics is sometimes referred to as ______ inheritance.
Enzymes serve as ____.
a. genetic templates
b. biological catalysts that regulate chemical reactions in the body
c. catalysts for the synthesis of protein molecules
d. physiological markers of chemical reactions in the body
Enzymes essentially act as biological catalysts within the body. They accelerate the chemical reactions taking place in cells, aiding in digestion, metabolism, and more.
Explanation:Enzymes serve as biological catalysts that regulate chemical reactions in the body. Enzymes significantly speed up the rate of virtually all the chemical reactions that take place within cells. They are instrumental in processes like digestion and metabolism and are crucial for human life. While they also participate in the synthesis of proteins, their roles expand beyond that specific function, making option b the correct choice.
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What does a hawk derive energy from
This lack of sensitivity is termed antibiotic resistance. How is antibiotic resistance an adaptation
Antibiotic resistance is an example of evolutionary change through natural selection, where bacteria with resistance to antibiotics survive treatment and reproduce. The overuse and misuse of antibiotics contribute to this problem, which is a significant global health concern due to the difficulty of treating resistant infections.
Explanation:Antibiotic resistance is a clear example of evolutionary change in action, specifically through natural selection. When bacteria are exposed to antibiotics, some bacteria may naturally possess genetic variations that confer resistance to these drugs. During treatment, antibiotics kill the non-resistant bacteria, while the resistant ones survive and reproduce. This selective process enables the resistant bacteria to become predominant within the population, as they are the ones that can survive and pass their traits on to their offspring. The excessive use of antibiotics accelerates this process because more opportunities are given for bacteria to be exposed to the drugs and thus for selection to occur.
The global spread of antibiotic resistance has become a major concern for public health. The overuse and misuse of antibiotics, such as not completing a prescribed course, encourage the growth and multiplication of resistant bacteria. These bacteria can cause infections that are difficult to treat, leading to increased healthcare costs, prolonged hospital stays, and greater mortality. As antibiotic-resistant strains like MRSA expand, the effectiveness of standard treatments diminishes, posing challenges to medical practitioners worldwide.
During which period of geologic time was the sediment of the pennington formation formed.
The Pennington Formation sediments were formed during the Late Triassic to Early Jurassic periods as part of the geological changes associated with the breakup of Pangea. The age of these sediments is determined through fossil evaluation and radiometric dating techniques.
The sediment of the Pennington Formation was likely formed during the Late Triassic to Early Jurassic periods, based on the geological context provided. As Pangea began to break apart approximately 200 million years ago, geological activity such as rifting and the formation of basins, like the Newark Basin in New Jersey, were prevalent. These basins were filled with sediments that later lithified into various sedimentary rocks. The sedimentary rocks of the Pennington Formation, therefore, were part of these episodes and could be connected to these geologic events.
Determining the age of rocks like those in the Pennington Formation often involves relative dating methods such as examining fossil assemblages and using stratigraphic principles. Absolute dating can also be applied through radiometric dating methods to better understand the timing of events like the deposition of sediments and the climatic conditions prevailing during the period of sediment deposit.