Answer:
Invertebrates can have bilateral or radial symmetry, or they can be asymmetrical. Bilateral symmetry means that the animal is arranged in the same way on both sides. Radial symmetry means the body parts are arranged in a circle around a central point.
Why is mercury used in barometer Class 7?
The density of mercury is greater and the mercury neither wets nor sticks to the glass tube therefore, it gives the correct reading. hence, mercury is used in barometer.
The barometer works by balancing the weight of mercury in the glass tube against the atmospheric pressure. if weight of mercury is less than the atmospheric pressure, the mercury level in the glass tube rises (high pressure). If it's more than atmospheric pressure, the mercury level falls (low pressure). Although, other liquids can be used in barometer, mercury is the common one. The density of mercury allows the vertical column of the barometer to be of manageable size. Using mercury in barometer is advantageous as its density is high it has low vapour pressure; its rate of evaporation is not very high. Mercury barometer is precise and offers a simple method of measuring the atmospheric pressure. Mercury is inexpensive and does not require any expensive equipment to be made.
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Should a pregnant woman take a drug that has been categorized by the FDA as a Category D drug?
Category D drug, Despite potential hazards, the medication may be used during pregnancy because of potential benefits.
What does FDA category D pregnancy mean?Category D: Risk-related evidence (studies in pregnant women have demonstrated a risk to the fetus; potential benefits of the drug may outweigh the risks).Category D, Potential benefits may justify use of the treatment in pregnant women despite potential hazards since there is positive evidence of human fetus risk based on adverse reaction data from investigational or marketing experience or research in humans.Despite potential hazards, the medication may be used during pregnancy because of potential benefits.The main issue was that the letter categories were frequently understood incorrectly as a grading system for a drug's dangers, leading to prescribing choices based on the category rather than a comprehension of the underlying data.To learn more about Category D drug refer to:
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Soils high in shrink/swell clays, such as montmorillonite, characterize which soil order?
Soils high in shrink/swell clays, such as montmorillonite, characterize Vertisols soil order.
A vertisol, also known as vertosol, is a soil type with a high content of expansive clay minerals, many of which are montmorillonite, which form deep cracks in drier seasons or years. Vertisols are clay-rich soils that experience extensive vertical cracking during the dry seasons. They are best suited for use as pastureland and the cultivation of plants that thrive in standing surface water, such as rice, and typically form under grassland vegetation in basin or rolling hill landscapes.
Heavy clay soils with a high proportion of swelling clays are being churned by vertisols. When these soils dry out, which happens most years, they form deep wide cracks from the surface downward. The name Vertisols (from L. vertere, to turn) refers to the constant internal turnover of soil material.
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When using an AED which of the following should you remember to do?
When using an AED, a person must remember to check pulse before resuming compressions after a shock. Thus, the correct option is A.
What is AED?An AED is an automated external defibrillator (AED). It is a medical device which is designed to analyze the heart rhythm and deliver an electric shock to the victims of ventricular fibrillation to restore the heart rhythm to normal levels. Ventricular fibrillation is the uncoordinated irregular heart rhythm which is most often responsible for sudden cardiac arrest.
AEDs are used to revive patients from sudden cardiac arrest. This condition usually occurs when a disruption in the heart's electrical activity causes a dangerously fast heartbeat which is known as ventricular tachycardia or a fast and irregular heartbeat that is ventricular fibrillation.
It is important to check the pulse before resuming compressions after a shock while using an AED.
Therefore, the correct option is A.
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Your question is incomplete, most probably the complete question is:
When using an AED which of the following should you remember to do?
a. Check pulse before resuming compressions after a shock.
b. Do not place on medication patches.
c. After a shock is delivered, allow 10 seconds before resuming CPR.
d. Never place an AED pad on a hairy chest.
Draw the atoms in the two molecules of ammonia, which are the products.
The diagram of the products of two molecules of ammonia which is mentioned in the question is attached below.
What is ammonia?Ammonia is a colorless gas which that consists of one nitrogen atom and three hydrogen atoms. The nitrogen atom is located at the center of the molecule and the three hydrogen atoms are attached to it by the covalent bonds.
The reaction between 2 molecules of ammonia will contain 2 nitrogen atoms and 6 hydrogen atoms, which will result into the formation of a molecule of nitrogen gas and three molecules of hydrogen gas.
2NH₃ ⇒N₂ + H₂
This reaction is exothermic, meaning it produces energy in the form of heat during this reaction, and is a type of synthesis reaction in which two or simpler molecule combines to form a complex molecule.
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Answer:
Explanation:
pluto/edmentom
Which of the following is probably going to propagate an action potential fastest?
(d) A thick, myelinated axon is probably going to propagate an action potential fastest.
Axons have the ability to obstruct the ability of particles to diffuse through the cytoplasm. Contrarily, opposition is correlated with filament width. Axons with weak myelinated axons will therefore provide more resistance, and Na+-based depolarization will propagate more slowly.
Constant conduction is the spread of an activity potential along an unmyelinated axon. Large numbers of sodium (Na) particles are constantly rushing into the cells because voltage-gated sodium (Na) channels are regularly open here for conduction.
Axons have the ability to guard particles while still allowing them to diffuse into the cytoplasm. The length of the strands and obstruction have a diametrically opposed connection. This escape is incredibly difficult since myelin is present, effectively protecting the action potential. Additionally, the myelin sheath-covered area of the neuron's capacitance is reduced.
The myelinated axon as a result accelerates the action potential impulse. The axon can spread more quickly the thicker its sheath.
Question
Which of the following is probably going to propagate an action potential fastest?
a. a thin, unmyelinated axon
b. a thin, myelinated axon
c. a thick, unmyelinated axon
d. a thick, myelinated axon
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this muscular injury may vary in severity from localized cellular injury to complete rupture of the muscle belly/tendon.
Your anwser is strain
Do snails have no gender?
No, snails have no gender as they're hermaphrodites. Garden snails produce sperms like males and carry eggs like females at the same time.
What are the characteristics of snails?Snails have both female and male reproductive cells as they are hermaphrodite. They don't actually need to mate with another snail to reproduce and self fertilization is possible. After mating they lay about 80 white eggs in a damp and underground nest.
Snails called slipper limpets begin life as males, and then become female as they grow. A new study has shown that when two males are kept together and in contact with one another, the larger one changes to female sooner, and the smaller one later.
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What are the 3 main settlement patterns?
The four main types of settlements are urban, rural, compact, and dispersed. Urban settlements are densely populated and are mostly non-agricultural.
They are known as cities or metropolises and are the most populated type of settlement. These settlements take up the most land, resources, and services .
The 4 principal varieties of settlements are urban, rural, compact, and dispersed. Urban settlements are densely populated and are typically non-agricultural.
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What is an example of a control in risk management?
Testing, routine internal audits as well as inspections, and sometimes even your training programme are examples of controls. The risk evaluation will determine the dangers that your business faces and what controls need to be put in place to safeguard your assets.
Avoidance, asset protection, loss reduction, segregation, duplication, & diversity are all examples of risk control techniques. In risk management, controls are defined as "any process, policy, device, practise, or other acts that change risk," according to the ISO 31000 standard. When examining numerous risk registers, "controls" are identified as a variety of items, including: HR guidelines Risk control is a business technique that enables firms to assess prospective losses and take steps to reduce or eliminate such risks. It is an essential component of a risk management process. Personal protective equipment (PPE), extraction systems, decontamination equipment, and ventilation equipment all fall under the category of control equipment. Controlling is a management function that aids in obtaining desired results from employees at all organisational levels, including managers and subordinates.
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Why do snails reproduce so much?
Snails do proliferate quickly, especially considering that they may reproduce without a partner. Simply said, a snail fertilizes its own egg.
How frequently do snails mate?Snails can spawn as often as once per month when the right circumstances are present (warm temperature, high humidity). With an average of five reproductive cycles each year and the high rate of reproduction of garden snails, each individual snail may produce 430 eggs annually.
Food is so plentiful that the number of snails is exploding. They occasionally consume the same foods that your fish do. Snails will reproduce more quickly if your fish are overfed, and once this happens there is sort of a cascading effect.
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What are the most common ions found in plasma?
Na+, K+, Mg+, and Ca2+ are the most prevalent cations in blood plasma. Na+, however, is the dominant cation and is in charge of plasma osmolarity.
What blood plasma ion is most prevalent?The most common ion in plasma, sodium, makes up the majority of the plasma osmolarity. The amino acids from broken down tissues or plasma proteins can be used to create new biological structures.
What typically resides in plasma?In plasma, there are 8% to 9% solids and 91% to 92% of water. Coagulants, notably fibrinogen, aid in blood clotting, which is what it mostly consists of. Two plasma proteins, albumin and globulin, help to maintain the colloidal osmotic pressure at 25 mmHg.
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Any "signs" of past life activity, like footprints or burrows, are called _________ fossils.organicperiodictrace
Any "signs" of past life activity, like footprints or burrows, are called Trace fossils.
A trace fossil, also known as an ichnofossil, is a fossil record of biological activity that does not include the plant or animal's preserved remnants.
Body fossils, on the other hand, are the fossilized remnants of sections of creatures' bodies that have been transformed by subsequent chemical activity or mineralization. Ichnology is the study of such trace fossils and is the work of ichnologists.
Trace fossils can be organism-made imprints on or in the substrate. Burrows, borings (bioerosion), urolites (erosion induced by liquid waste outflow), footprints and feeding imprints, and root cavities are all examples of trace fossils.
In its widest definition, the word also refers to the remnants of other organic material generated by an organism, such as coprolites (fossilized droppings) or chemical markers (sedimentological structures produced by biological means.
Most sedimentary formations, however, (for example, those generated by empty shells rolling over the sea bottom) are not produced by an organism's behavior and hence are not called trace fossils.
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Why is the function of endoplasmic reticulum important?
Functions of endoplasmic reticulum are :-
The endoplasmic reticulum, or ER, is in responsible for transport like transportation of proteins and carbs to another organelle. It is crucial for the production of proteins, glycogen, and lipids. like other steroids as well. They give cellular responses a sizable surface area. It serves as an intracellular structural support system that also preserves the cell's shape. It facilitates the development of plasmodesmata.
Endoplasmic is a complex web of tubular membranes known as the reticulum is only found in the cytoplasm of eukaryotic cells. One type of endoplasmic reticulum has a surface covered in ribosomes, whereas the other type has a smooth surface. The smooth endoplasmic reticulum is the latter, whereas the rough endoplasmic reticulum is the former. These membranes continuously fold, finally connecting the nuclear membrane's outer layer.
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Where is the most healthy fat stored in a human
Answer:
Subcutaneous fat
Explanation:
Essential fat is necessary for a healthy, functional body. Subcutaneous fat makes up most of our bodily fat and is found under the skin. This is the body's method of storing energy for later use
Do sister chromatids have the same number of chromosomes?
This results in the production of two copies of each chromosome—one from the mother and one from the father. Sister chromatids are these identical copies.
Does the number of chromosomes in sister cells match up?Two identical daughter cells are produced during mitosis, and both of these cells have the same amount of chromosomes as their parent cell.
Do sister chromatids only have one chromosome?It is still thought of as one chromosome as long as the sister chromatids are joined at the centromere. Each is regarded as a different chromosome once they are separated during cell division, though. Only in the sister chromatids does the centromere exist.
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Calculate the energy, number of organisms, or biomass lost between trophic levels.
Using the Rule of 10, because of energy flow from organism to organism the next organism on the chain only receives 10% of the energy obtained in the previous level. the other 90% is used or lost as heat. Therefore, producer=100% primary consumer=10% secondary consumer=1% tertiary consumer= 1%.
Why is the pyramid used to represent energy, biomass, and number pyramids?The number of organisms at each trophic level is represented by a number pyramid. The total mass of living organic matter at each trophic level is represented by a biomass pyramid. Energy decreases as it moves up the pyramid.
The energy levels of organisms consists of Tertiary consumers 1 kcal, secondary consumers 10 kcal, primary consumer 100 kcal and producers 1000 kcal. According to the rule of 10 in ecology, energy flows from organism to organism and is used for metabolism and/or converted to heat the next organism on the chain receives only 10% of the energy obtained in the previous level. The remaining 90% is consumed or lost as heat.
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Compare the dehydration synthesis of maltose to the hydrolysis reaction of this macromolecule.
Dehydration synthesis is a chemical reaction that joins two smaller molecules by eliminating components from each of them.
How do dehydration synthesis processes relate to hydrolysis reactions?
While hydrolysis reactions break down molecules and typically release energy, dehydration synthesis reactions build up molecules and typically demand energy.
These kinds of reactions can assemble and disassemble nucleic acids, proteins, and carbohydrates, however the monomers in each case vary.
Synthesis of dehydration
How are polymers created from monomers?
Dehydration synthesis processes, in which one monomer establishes a covalent connection to another monomer (or expanding chain of monomers), release a water molecule in the process, are frequently used to create large biological molecules.
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Biodiversity: Do you think that the hot spot strategy is a good one?
Answer:
The "hot spot" strategy is a conservation approach that focuses on protecting areas that are home to a large number of species and a high level of biodiversity. These areas, known as biodiversity hot spots, are often characterized by high levels of species endemism (the occurrence of species that are found nowhere else) and are under threat from human activities such as habitat destruction, deforestation, and climate change.
In general, the hot spot strategy is considered to be a good approach to biodiversity conservation because it focuses on protecting areas that are home to a high number of species and that have a high level of biodiversity. By protecting these areas, it is possible to conserve a large number of species and their habitats and prevent the loss of biodiversity.
However, it is important to note that the hot spot strategy is not a perfect solution and has its limitations. For example, some hot spot areas may be too large or difficult to protect, and it may be challenging to prioritize conservation efforts among different hot spot areas. Additionally, the hot spot strategy may not be sufficient on its own to address the full range of threats facing biodiversity, and other conservation approaches may also be needed.
Overall, while the hot spot strategy is a good approach to biodiversity conservation, it is important to consider the limitations of this strategy and to use it in combination with other approaches to effectively protect and conserve biodiversity.
The hotspots are still crucial to our work for key reasons: The basis of all life on Earth is biodiversity. it focuses on preserving regions with a high concentration of species and biodiversity, the hot spot strategy.
What is a hot spot?There wouldn't be any species if there weren't any air to breathe, food to eat, or water to drink. There wouldn't even be a human society.
Because it focuses on preserving regions with a high concentration of species and biodiversity, the hot spot strategy is generally seen as an effective method for conserving biodiversity.
These regions may be protected, helping to preserve a variety of species and their ecosystems while also halting the loss of biodiversity.
Therefore, hotspots are still crucial to our work for key reasons, the basis of all life on Earth is biodiversity.
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the image shows a type of connective tissue called
The image shows a type of connective tissue called blood.
Organ or tissue that provides structure, support, and protection for other organs and body tissues. Connective tissue serves to store fat, repair damaged tissue, and move nutrients and other substances between tissues and organs. A gel-like substance, fibres, and cells make up connective tissue.
Connective tissue fills the crevices between various tissues all over the body, including the nervous system.Connective tissue makes up the three meninges, which are membranes that surround the brain and spinal cord.
One of the connective tissues is blood. It serves as a connective tissue and is composed of cells and cell fragments (formed components) floating in an intercellular matrix (plasma). In an adult, the only liquid tissue in the body is blood, which makes up 8% of body weight and has a volume of around 5 litres.
Complete question:
the image shows a type of connective tissue called
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________ split from a common hominoid ancestor.Humans and chimpanzeesHumans and chimpanzeesGreater apes and lesser apesGreater apes and lesser apesPrimates and mammals
Humans and chimpanzees are split from a common hominoid ancestor.
Humans and chimpanzees shared a last common ancestor approximately 6–7 million years ago. The hominoid ancestor of extant apes and humans from the crucial period when these branches separated are still mostly unknown.
Our closest cousins among the great apes are chimpanzees and bonobos. The fossil record and ape and human DNA research show that humans and chimpanzees and bonobos shared an ancestor around 6 million years ago (mya).
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choose all statements that are true regarding postsynaptic potentials? multiple select question. they include epsps and ipsps. they depend on the myelination of nerve axons. they are changes in the membrane potential of the postsynaptic terminal of a chemical synapse. they are caused by neurotransmitters.
The statements that are true regarding postsynaptic potentials:
-They include EPSPs and IPSPs.
-They are changes in the membrane potential of the postsynaptic terminal of a chemical synapse.
-They are caused by neurotransmitters.
A postsynaptic potential (PSP) is a brief transition in the electric polarization of a nerve cell's membrane (neuron). The postsynaptic potential is the consequence of the chemical transmission of a nerve impulse at the synapse (neuronal intersection), and it can result in the firing of a new impulse.
Postsynaptic potentials are modifications in the membrane potential of a chemical synapse's postsynaptic terminal. Even though their function is to activate or inhibit action potentials, postsynaptic potentials are not to be confused with action potentials.
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What are 3 things humanity can do as a species to try to save coral reefs?
While providing habitat for 25% of all marine species and receiving close to 500 million visitors annually, coral reefs are also the most endangered marine ecosystem on earth.
You can help safeguard coral reefs and the fish, animals, and plants that rely on them by taking a few straightforward, practical measures.
1. When diving at coral reefs, exercise caution.
The reef should not be touched or anchored by vessels. Corals can die if they come into contact with the reef or if they are anchored there.
2. Use a sunscreen that respects the reefs.
Coral reefs have been found to be harmful to a number of common sunscreen chemicals, including oxybenzone and octinoxate. Coral bleaching is not a result of sunscreens with non-nano zinc oxide as one of their active constituents.
3. Practice eco-friendly lawn care
You may even though you might be thousands of kilometers from a coral reef, the products you use on your lawn will eventually get up in the water supply. Use eco-friendly pesticide and fertilizer alternatives that won't harm coral reefs or marine life.
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Identify the form carbón takes in the biosphere, hydrosphere geosphere and atmosphere
A geneticist discovers a new mutation in Drosophila melanogaster that causes the flies to shake and quiver. She calls this mutation spastic (sps) and determines that it is due to an autosomal recessive gene. She wants to determine whether the gene encoding spastic is linked to the recessive gene for vestigial wings (vg).
She crosses a fly homozygous for spastic and vestigial traits with a fly homozygous for the wild-type traits and then uses the resulting F1 females in a testcross.
Write out the experimental design for this test cross and indicate the progeny genotypes and expected proportions of these genotypes if the loci are completely linked.
The experimental design for this test cross -SpsspsVgvg and spsspsvgvg offspring will only be produced by complete linkage in proportions of 0.50 for each.
The way this experiment is set up means that depending on whether the genes are completely linked, partially linked, or unlinked, we will get different results. Even if the genes are linked and crossing over occurs, the parental cross will always take place in the same way in all of these situations, as the given parents of SpsSpsVgVg and SpsSpsVgVg will only ever produce SpsVg and SpsVg gametes, respectively. We now have the following cross between them as a result:
Gamete SpsVg SpsVg
spsvg SpsspsVgvg SpsspsVgvg
spsvg SpsspsVgvg SpsspsVgvg
SpsspsVgvg, we can see that every F1 offspring will be double heterozygous. These alleles will all assort independently, assuming there is no linkage. This will produce SpsVg, Spsvg, spsVg, and spsvg gametes in equal proportions to one another in order to cross with those of the tester, spsspsvgvg, which will only produce spsvg gametes in the subsequent cross:
Gamete SpsVg Spsvg spsVg spsvg
spsvg SpsspsVgvg Spsspsvgvg spsspsVgvg spsspsvgvg
Here, we can see that there is no linkage that will produce the same proportion of four distinct genotypes and phenotypes. On the other hand, we will observe SpsVg and spsvg gametes as non-recombinants from the F1 individual, as this is how they were inherited from her parents, and we will also observe SpsVg and spsVg gametes with a frequency that is proportional to the distance between the genes. However, if the genes are only partially linked and are situated some distance apart, we will observe SpsVg and spsvg gametes as We will get the same genotypes and phenotypes from this as we did from the unlinked cross, but the SpsspsVgvg and spsspsvgvg offspring will be much more common than the other offspring.
The third possibility is that these genes are completely linked, with no space between them, and that there will be no recombinant offspring as a result. This indicates that the F1 mother produces only SpsVg and spsvg gametes, which result in the following offspring containing the tester's spsvg gametes:
Gamete SpsVg Spsvs
spsvg SpsspsVgvg spsspsvgvg
Here, we can see that complete linkage will only produce SpsspsVgvg and spsspsvgvg offspring in proportions equal to 0.50 for each.
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Which of the following is an example of genetic drift?
A. Founder effect
B. Gene flow
C. Mutation
D. None of the above
The correct option B. Gene flow, is an example of genetic drift.
Gene flow is the process through which genetic variety is transferred from one population to another population, changing the overall amount of genetic diversity (gene pool) within the first group.
It can happen in a number of ways. As an illustration, as birds migrate from one habitat to another, the gene pool changes.
Genetic drift occurs when the frequency of different alleles, or variable forms of a gene, fluctuates over time through chance. Changes in allele frequencies are used to measure these differences in allele presence.
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Can you change lanes in an intersection in Florida?
It is not a good idea to change lanes in an intersection, even though it is permitted. In order to change lanes, accelerate a little.
Keep in mind that you are travelling slower than the rest of the traffic since you are moving sideways. Be sure to see both ways before braking or stopping. Instead of crossing the street, proceed through the intersection at the slowest possible pace. Avoid passing or lane changes. This story has drawn criticism from many viewers, so I took my interpretation to the Florida Highway Patrol, who agreed it was accurate. According to the FHP, cars should avoid entering intersections until they can effectively navigate them; blocking a junction is against the law.
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What is the ratio of genotypes produced in the example of crossing a heterozygous yellow pea with another heterozygous pea ratio of phenotypes?
Phenotypic ratios is 1:0 yellow : green of genotypes produced in the example of crossing a heterozygous yellow pea with another heterozygous pea ratio of phenotypes.
What do you mean by offspring?The term offspring has been refers to the young innovation of the living beings. That particular organism has been assembled either by an individual organism or, in the topic of physiological property, reproduction between the two organisms.
The main reason for this is that the offspring of the living creature will have one parent trait or the other parent trait, but they do not blend or mix together, such as when two plants are tall and the other is short; the children will be tall or short, but not medium size.
Therefore, Phenotypic ratios is 1:0 yellow : green of genotypes produced in the example of crossing a heterozygous yellow pea with another heterozygous pea ratio of phenotypes.
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What are the 4 main settlement patterns?
Dispersed, linear and nucleated are the most common. A dispersed pattern is where isolated buildings are spread out across an area, usually separated by a few hundred metres with no central focus.
This pattern of settlement is most common in India. The areas having this pattern of settlement have a high degree of clustering and high population density. The shape of the cultivated land is rectangular.The three main patterns of settlement are dispersed, nucleated and linear. Geography is an important factor as to what settlement pattern is chosen.
The 3 fundamental styles of agreement are dispersed, nucleated and linear. Geography is an vital thing as to what agreement sample is chosen. Dispersed, linear and nucleated are the maximum not unusualplace.
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Chicken Wing Dissection What is the difference between a ligament and a tendon?
Answer:
Read below.
Explanation:
A ligament is a type of connective tissue that connects bones to other bones, while a tendon is a type of connective tissue that connects muscle to bone.
In a chicken wing dissection, you may see ligaments connecting the bones of the wing, and tendons connecting the muscles of the wing to the bones.
Ligaments and tendons are both made up of collagen, a tough and flexible protein that allows them to withstand the forces of movement and tension.
However, ligaments are typically more flexible than tendons, allowing for a wider range of movement in the joints.