In order to handle a strenuous hunt, or drag or pack out a downed animal, what should you be?.
Answers
In order to handle a strenuous hunt or drag or pack out a downed animal, you should be physically fit. Hunting is a physically demanding activity that requires a lot of strength, endurance, and agility.
Being in good physical condition can help you avoid injuries, such as strains, sprains, and back pain.Physical fitness is an essential aspect of hunting and can be the difference between a successful hunt or not. The physical demands of hunting require you to be in good shape, especially if you plan on handling a strenuous hunt or dragging or packing out a downed animal. A hunt can last for several hours, or even days, and you need to have the physical stamina to keep up with the demands of the hunt. Good cardiovascular fitness is essential because it can help you endure long hikes and the stress of tracking and stalking game. It would help if you also had muscular strength to carry and drag heavy loads of gear, such as guns, ammunition, and food. Strong back, leg, and core muscles are also critical in lifting and carrying heavy game, such as deer or elk. A lack of fitness could result in injuries, which could ruin your hunting trip and even cause long-term damage to your body.
Being physically fit is essential to handle a strenuous hunt, drag, or pack out a downed animal. It's necessary to build and maintain a level of fitness before hunting season arrives. You can improve your physical fitness by engaging in regular exercise, such as running, hiking, weightlifting, and cardio workouts. You should also eat a healthy and balanced diet to ensure that your body has all the nutrients it needs to function optimally. Drinking plenty of water is also essential to keep your body hydrated and performing well during the hunt.
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To handle a strenuous hunt, drag or pack out a downed animal, you need to be physically fit.
The task of hunting, dragging, or packing out a downed animal can be physically exhausting and strenuous. These activities require a lot of energy and endurance. Therefore, if you are not physically fit, it can be difficult to handle these tasks.
For instance, if you have a heart condition or you are not used to physical activities, these tasks can put you at risk of injury or severe fatigue. On the other hand, if you are physically fit, you will be able to handle these tasks with ease.
Being physically fit is critical when it comes to handling a strenuous hunt, dragging, or packing out a downed animal. It helps to reduce the risk of injury and fatigue, enabling you to handle these tasks with ease.
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Related Questions
what is a cartilaginous joint in which hyaline cartilage binds the bones together called?
Answers
A cartilaginous joint in which hyaline cartilage binds the bones together is called a synchondrosis.
Synchondroses are a type of joint in which the bones are connected by a band of hyaline cartilage. This type of joint is found in the developing skeleton, where it provides some degree of flexibility and allows for growth and development. For example, the epiphyseal plates in long bones are synchondroses that allow for the lengthening of bones during growth.
Synchondroses are different from other types of cartilaginous joints, such as symphyses, which are connected by fibrocartilage, and sutures, which are found in the skull and are connected by a thin layer of fibrous connective tissue. In addition, synchondroses do not allow for much movement, as the hyaline cartilage acts as a rigid connector between the bones.
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Is it possible for a son to inherit an X chromosome from his father? Explain why or why not.
Answers
Answer:
No.
Explanation:
The mother gives an x chromosome or even 2 if there is a error in the transfer and the dad gives a y.
hope that explains it well!!
describes the factor that drives the ecological footprint of a country
Answers
Responder:
Su huella ecológica depende de su cultura, la tecnología disponible para usted y las leyes y los límites relacionados con la regulación ambiental que establece su gobierno.
Explicación:
Su huella ecológica depende de su cultura, la tecnología disponible para usted y las leyes y los límites relacionados con la regulación ambiental que establece su gobierno. Su huella ecológica se ve afectada por la cantidad de tierra en la que vive, si conduce (cuánto conduce, cuál es el consumo de gasolina de su automóvil, cuáles son las leyes de emisiones en su país para los automóviles), qué alimentos come y dónde. de dónde vienen, de dónde viene su electricidad, y así sucesivamente. Por lo tanto, si vive en Suecia, donde hay un gran énfasis en la energía verde y una dependencia comparativamente baja de los combustibles fósiles, su huella se verá afectada por esto. Por el contrario, si vive en un país que aún se está desarrollando económicamente en términos de tecnología, donde la mayoría de las personas no tienen acceso a automóviles ni electricidad, su huella será menor que la de aquellos que tienen acceso regular a viajes aéreos, automóviles , electricidad, etc. Otro factor a considerar son las regulaciones gubernamentales. Si su gobierno establece que la contaminación de las fábricas y los automóviles debe cumplir con un cierto estándar, eso significará que cualquier automóvil que compre o la fábrica en la que trabaje o compre productos tendrá una huella menor que sin estos estándares gubernamentales. Esto reducirá su huella. Por último, la cultura en la que vive, cuánto valor se le da a ser verde y a la conservación, probablemente tendrá un impacto en usted. Si creces en un hogar donde el reciclaje y el compostaje son la norma y tu familia y amigos andan en bicicleta en todos los lugares posibles, esto es muy diferente de crecer en un lugar donde conducir es un símbolo de riqueza y prestigio. Yale tiene un sitio realmente excelente donde puede ver el desempeño ambiental de los países en función de sus prácticas agrícolas, recursos hídricos, clima y energía, y más.
a coenzyme assists an enzyme by accepting or donating matter. what does nad+ transfer?
Answers
NAD⁺ (nicotinamide adenine dinucleotide) transfers electrons during redox reactions. It accepts electrons and a hydrogen ion (H⁺) from a substrate, forming NADH.
NAD⁺ acts as an electron carrier in metabolic reactions. It functions by accepting and donating electrons, which enables the transfer of energy during redox reactions. NAD⁺ accepts two electrons and a hydrogen ion (H⁺) from a substrate, resulting in the formation of NADH.
NADH then acts as an energy-rich molecule that donates its electrons to other molecules in various metabolic pathways, such as cellular respiration. This electron transfer facilitates the production of ATP (adenosine triphosphate), the primary energy currency of cells.
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Which characteristic places the king snake in a different class than the giant panda?
Answers
Answer:
It isn't a mammal.
Explanation:
The king snake is not a mammal.
The difference between a king snake and a giant panda is that a king snake is a reptile, while a giant panda is a mammal.
What is a mammal?The majority of mammals give birth alive, have hair or fur, have warm-blooded bodies, nurse their young with milk generated by their mothers' mammary glands, and have more complex brains than other animals. They have hairs on their bodies.
A class of vertebrate creatures called mammals. Rats, cats, dogs, deer, monkeys, apes, bats, whales, dolphins, and humans are a few examples of mammals. Mammals can be broadly divided into three groups: placentals, marsupials, and egg-laying monotremes.
King snake is a reptile, while giant panda is a mammal. Hence, this characteristic places them in a different class.
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If you run at 12 m/s for 15 s, how far will you go?
Answers
Answer:
can I have brainleis answer
Answer: 10.8 km
Explanation: S=vt = 12m/s*15*60 = 10800 m = 10.8 km
So I go 10.8 km
when water becomes ice, what cause hydrogen bonds to form but there is air in between
Answers
Answer:
When water becomes ice, the temperature drops causing the water molecules to slow down and the distance between them increases, forming hydrogen bonds between them. However, there is still air present within the ice structure due to the fact that the hydrogen bonds cannot fill all the space between the water molecules, creating small pockets of air or voids within the ice structure.
Is calico an example of Codominance?
Answers
Calico is a coat color found in cats that is caused by sex-linked co-dominant alleles.
The calico cat displays a mixed color of red and black, depending on which of her two X chromosomes is inactivated. The allele that codes for orange hair color is dominant, while the black color allele is recessive. In cats, the X chromosome carries the gene that determines coat color, and calico cats have two different versions (or alleles) of this gene. One allele produces orange fur, the other produces black fur.
Codominance actually means that neither allele can block or camouflage the expression of the other allele. Co-dominance can also occur in less obvious traits such as blood type.
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What is the difference between fossils and modern organisms
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There are several key differences between fossils and modern organisms:
Age: Fossils are the preserved remains or traces of organisms that lived in the past. They can range from thousands to millions of years old. In contrast, modern organisms are the living organisms that exist today. Physical State: Fossils are typically preserved as hard structures, such as bones, shells, or teeth. These hard parts have undergone a process called fossilization, which involves the replacement of organic material with minerals over time. Time of Existence: Fossils represent organisms that lived in the past, often from extinct species or ancestors of modern species. Modern organisms, as the term suggests, exist in the present time. Evolutionary Changes: Fossils can provide valuable insights into the history of life on Earth and how organisms have evolved over time.
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all synapomorphies are homologous traits. group of answer choices true false
Answers
It is true to say that "all synapomorphies are homologous traits".
Synapomorphies are shared derived features that are inherited from a common ancestor by two or more taxa. On the other hand, homologous qualities are characteristics that are comparable in both structure and function across various creatures and are also passed down from a common ancestor.
Because synapomorphies are inherited from a common ancestor, they can only be homologous characteristics. As a result, any characteristic that is a synapomorphy must have originated in the taxon in question and been passed on to its offspring. Different lineages may have independently evolved non-homologous characteristics, which means they cannot be synapomorphies.
In conclusion, all homologous qualities are synapomorphies, but not all synapomorphies are homologous traits. Synapomorphies can be used to retrace the evolutionary history of life on Earth and offer significant evidence for understanding the evolutionary links between various species.
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The big idea of the Flame Test lab is
Answers
The big idea of the Flame Test lab is to demonstrate the characteristic colors emitted by different metal ions when heated in a flame.
The Flame Test lab is a common chemistry experiment used to identify and distinguish between different metal ions based on the color of the flames they produce when heated.
The characteristic colors observed in the flame result from the excitation of electrons in the metal ions to higher energy levels, followed by their subsequent relaxation back to lower energy levels, accompanied by the emission of light.
The colors emitted by different metal ions are unique and can be used to identify the presence of specific metals in a sample. The Flame Test lab provides a visual demonstration of the relationship between the colors observed in the flame and the identity of the metal ions present in a sample, and it is widely used in chemistry education and analytical chemistry to teach about the properties of different metal ions and their spectroscopic characteristics.
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what is a prokaryote and when did prokaryotes arise
Answers
A prokaryote is an organism made from a single prokaryotic cell. The prokaryotes had arisen more than 2.5 billion years ago.Every eukaryotes has a cell membrane, ribosomes, and DNA
A scientist wants to increase the chance of pregnancy in mice. He gives the mice a hormone that
causes them to produce more gametes. Which of the following statements justifies which process
the cells went through after the hormone injections?
GROUP OF CHOICES
Mitosis because more cells will be produced at a faster rate.
Mitosis, because daughter cells genetically identical to the parent cell are needed for reproduction.
Meiosis, because the cells produced need to be diploid rather than haploid
Meiosis since it produces haploid cells needed for reproduction.
Answers
Answer:
Meiosis since it produces gametes needed for reproduction
Explanation:
Muốn có vitamin D tránh loãng xương, còi xương ta cần phải là gì:
Answers
Answer:
Phơi nắng vào buổi sáng.
Answer:
chúng ta phải bổ sung thêm vitamin D qua các sản phẩm như lòng đỏ trứng, cá, sữa.
Explanation:
A researcher investigated a blood disease carried by birds she isolated an organism from the blood of an infected bird she finds that the organism is unicellular and has a nucleus a cell wall and the ability to produce spores what kingdom does the organism belong to
Answers
The researcher who conducted an investigation on a blood disease carried by birds found out that the organism is unicellular and has a nucleus, cell wall, and the ability to produce spores. Based on this information, the organism belongs to the Kingdom Fungi.
The kingdom Fungi consists of unicellular and multicellular organisms that lack chlorophyll and reproduce asexually and sexually by forming spores. They are heterotrophic organisms, which means they depend on other organisms for their food. Fungi cells have a cell wall made up of chitin, which provides strength and rigidity to the cell wall. The cytoplasm of the fungal cells contains many specialized organelles, including nuclei, ribosomes, mitochondria, and Golgi bodies that carry out various metabolic activities.
The researcher's findings suggest that the organism is a unicellular fungus with a nucleus, cell wall, and the ability to produce spores. Spores play a crucial role in the fungal life cycle, as they allow the organism to reproduce and spread to new habitats. These spores can be transported by wind, water, or other organisms to colonize new areas.
In conclusion, based on the researcher's investigation, the organism she isolated from the blood of an infected bird belongs to the Kingdom Fungi.
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Are the genotypes of the true breeding parents and offspring in these crosses homozygous or heterozygous? Explain
Answers
Explanation:
In true-breeding parents, all the alleles at a particular locus are the same, which means they are homozygous. This is because truebreeding parentshave undergone multiple generations of self-fertilization or cross-breeding with other individuals having the same genotype, resulting in a purebred line with the same homozygous alleles.
In true-breeding parents, all the alleles at a particular locus are the same, which means they are homozygous. This is because truebreeding parentshave undergone multiple generations of self-fertilization or cross-breeding with other individuals having the same genotype, resulting in a purebred line with the same homozygous alleles.In the case of the offspring resulting from a cross betweentrue breeding parents, the genotypes would also be homozygous for the specific trait being studied.
In true-breeding parents, all the alleles at a particular locus are the same, which means they are homozygous. This is because truebreeding parentshave undergone multiple generations of self-fertilization or cross-breeding with other individuals having the same genotype, resulting in a purebred line with the same homozygous alleles.In the case of the offspring resulting from a cross betweentrue breeding parents, the genotypes would also be homozygous for the specific trait being studied.For example, if we are studying the inheritance of flower color in pea plants and we have a true breeding parent with pink flowers and another true breeding parent with white flowers, the parent plants would both have homozygous genotypes for their respective flower color alleles (pink parent: PP and white parent: pp). When these two parents are crossed, their offspring will all have heterozygous genotypes for the flower color gene (Pp), as each individual inherits one allele from each parent.
In true-breeding parents, all the alleles at a particular locus are the same, which means they are homozygous. This is because truebreeding parentshave undergone multiple generations of self-fertilization or cross-breeding with other individuals having the same genotype, resulting in a purebred line with the same homozygous alleles.In the case of the offspring resulting from a cross betweentrue breeding parents, the genotypes would also be homozygous for the specific trait being studied.For example, if we are studying the inheritance of flower color in pea plants and we have a true breeding parent with pink flowers and another true breeding parent with white flowers, the parent plants would both have homozygous genotypes for their respective flower color alleles (pink parent: PP and white parent: pp). When these two parents are crossed, their offspring will all have heterozygous genotypes for the flower color gene (Pp), as each individual inherits one allele from each parent.So in summary, the true breeding parents have homozygous genotypes for the trait being studied, while their offspring resulting from a cross would have heterozygous genotypes.
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Answer:
This means that the parents are homozygous for every trait
Explanation:
A true breeding is a kind of breeding wherein the parents would produce offspring that would carry the same phenotype.
Type the correct answer in the box. an organism with five pairs of chromosomes can have genetic possibilities from independent assortment of its single gamete.
Answers
Answer: 23
Explanation:
If an organism with five pairs of chromosomes can have genetic possibilities from independent assortment of its single gamete, it refers to the meiosis process, which produces gametes with genetic information of unique combinations.
What is meiosis?Meiosis is a type of cell division in sexually reproducing organisms, where a diploid cell is divided into four haploid cells. During the process, homologous chromosomes pair up followed by exchange of segments of genetic information resulting in new combinations of alleles on the chromosomes followed by their separation into different daughter cells.
Independent assortment is another important mechanism responsible for generating genetic diversity which results in a large number of possible combinations.
In the case of an organism with five pairs of chromosomes, there are 32 possible combinations of chromosomes that separate in a single gamete because of independent assortment. Therefore, each gamete produced by the organism contains unique genetic information which can create genetic diversity in an individual.
Therefore, if an organism with five pairs of chromosomes can have genetic possibilities from independent assortment of its single gamete, it produces gametes with genetic information of unique combinations.
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Cell replication is important for reproduction of body cells and reproduction of gametes. Which type of reproduction occurs only in gametes
Answers
Answer:
meiosis
Explanation:
meiosis occurs in reproductive organs
Someone please HELP!!!!!!
Answers
I hope that helps and sorry if my answer turned out wrong but I tried my best so enjoy!!
Which protects the DNA of a virus?
Answers
Answer:
The capsid
Explanation:
It functions as a shell for the virus and its genome.
In some viruses, the capsid may also be surrounded by an outer envelope, which is derived from the host cell's membrane and contains viral proteins that are involved in the infection process. The envelope can further protect the virus from environmental stresses, such as changes in temperature or pH.
How are thorns and spines related to drought resistance?
Answers
Answer:
To survive in drought conditions, plants need to decrease transpiration to limit their water loss. Some plants that live in dry conditions have evolved to have smaller leaves and therefore fewer stomata. Extreme examples are plants with leaves that resemble spiky thorns or spines.
What are the modes of parasite development in biological transmission, where the parasite's ability to reproduce or develop in the arthropod vector is a key characteristic?
Answers
There are several modes of parasite development in biological transmission, where the parasite's ability to reproduce or develop in the arthropod vector is a key characteristic.
One mode is called cyclopropagative transmission, where the parasite undergoes both asexual and sexual reproduction in the vector host. Another mode is called propagative transmission, where the parasite undergoes asexual reproduction in the vector host. Finally, there is developmental transmission, where the parasite undergoes development in the vector host, but does not reproduce.
ingestion, development or reproduction, and transmission. During ingestion, the arthropod vector acquires the parasite by feeding on an infected host. Next, the parasite undergoes development or reproduction within the vector, which may involve molting, replication, or changes in form.
Finally, the transmission stage occurs when the infected arthropod vector transfers the parasite to a new host during feeding. The parasite's ability to reproduce or develop in the arthropod vector is a crucial characteristic for successful biological transmission.
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For a metapopulation of checkerspot butterflies where 9 out of 20 patches are occupied, the patch colonization rate is 2.3, and the patch extinction rate is 1.3. Break down the metapopulation equation to determine these values (hint: what does each term, aka cluster of variables, in the equation actually represent?) Equation: dP/dt=[cP(1−P)]−eP a. (1 point) the overall colonization rate of the entire metapopulation b. (1 point) the overall extinction rate of the entire metapopulation c. (2 points) Are the colonization and extinction rates likely to be at equilibrium with each other? How do you know?
Answers
a. The overall colonization rate of the entire metapopulation. The colonization rate of the entire metapopulation is the answer.
The metapopulation equation: dP/dt=[cP(1−P)]−ePHere, cP(1-P) is the birth term, which is the product of the colonization rate and the number of individuals in patches not occupied yet. eP is the death term, which is the product of the extinction rate and the number of individuals in patches occupied but about to go extinct. Thus, the equation gives us the number of patches that are empty and the patches with checkerspot butterflies. Therefore, the overall colonization rate is 2.3. b. The overall extinction rate of the entire metapopulation. The extinction rate of the entire metapopulation is 1.3. This is because 1.3 patches of the occupied 9 patches are going to become extinct.
c. Are the colonization and extinction rates likely to be at equilibrium with each other? How do you know? Both colonization and extinction rates are unlikely to be in equilibrium with each other because the colonization rate is higher than the extinction rate. Therefore, the occupied patches' population will continue to increase until the patches are fully occupied, while the number of empty patches will continue to decrease until the patches are fully occupied.
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what do the chomosomes of the cell before mieosis ii look like a) same number of chromosomes but different alleles in each cell
Answers
The chromosomes of the cell before meiosis ii look like this- The cells are haploid — have only one chromosome from every homolog pair — however, their chromosomes actually comprise of two sister chromatids.
Cells move from meiosis I to meiosis II without replicating their DNA. Meiosis II is a more limited and less complex cycle than meiosis I.
In meiosis II, the sister chromatids are discrete, making haploid cells with non-copied chromosomes. During prophase II, chromosomes gather and the atomic envelope separates, if necessary. The centrosomes move separated, the axle structures among them, and the spindle microtubules start to catch chromosomes.
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In this activity you will select one of the species below to model. You will write each function for your chosen species in chart in number 2. Then you will decide what matching characteristic (form) this species would need to carry out that function. plus you can just downloads the doc so you can see it better
1. Read through each of the species descriptions below, and highlight the species that you would like to model.
Species A can … Species B can … Species C can … Species D can …
Fly
See far into the distance
Hide easily in a tree
Collect multiple small berries and nuts in its body
Alert others of danger by releasing gas Jump from uneven surfaces
Walk on the ground and on the side of a mountain
Blend in with the surroundings of a mountain
Look up and down without moving its head
Sift through small rocks to find food Swim
Dive from high elevations
Catch small fish with its limbs
Gulp fish whole or tear into it with its mouth
Double in size when scared Hop but cannot jump
Move very close to the ground
Burrow into the ground
Hear many sounds and smell many scents
Eat plant matter that has fallen onto the ground
Answers
The specie that I would like to model would be a housefly.
The classification of a housefly are:
Kingdom: Animalia Phylum: Arthropoda Class: Insecta Order: Diptera Family: Muscidae Genus: Musca Scientific Name: Musca domestica.What is a Specie Classification?This refers to the binomial nomenclature that is used to classify living organisms and show their relationship with others.
Hence, we can see that the name of the person that invented this system is known as Carl Linnaeus who developed the system in the 18th Century.
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which would be a property of lipids found in the cell membrane?a.they would be saponifiable in base and hydrolyzed in acid.b.they would be composed of five-carbon units.c.they would have polar heads and non-polar tails.d.they would be joined to each other through covalent bonds.
Answers
Property of lipids found in the cell membrane c.) they would have polar heads and non-polar tails.
The heads forming the outer and inner linings are hydrophilic that means water loving. And the tails that face the interior of the cell membrane are hydrophobic that means water fearing. The most abundant membrane lipids are the phospholipids having a polar head group and two hydrophobic hydrocarbon tails.
Phospholipids, cholesterol, and glycolipids are three types of membrane lipid molecules. The lipid compositions on the inner and outer layers are different depending on the different functions of the two faces of a cell membrane.
Lipids works as an essential structural component of membranes, as a signaling molecules, chemical identifiers of specific membranes and as energy storage molecules.
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true or false?two-thirds of our rainfall is returned to the air by evaporation and respiration
Answers
About 90% of the water in the atmosphere is produced from evaporation crom water bodys, while the remaining 10% comes from transpiration. These are the form of return of the water to the atmosphere in the water cycle. The rainfall is related to the process of precipitation of the water cycle, being know a the return of water to the Earth.
Therefore, for the information about the water cycle and how it work, the alternative is false because according to the known about the water cycle, rainfall is not direct linked to the return of water to the air, but to the return of water to the Earth.
17. When transcription occurs in eukaryotic cells, a DNA strand is copied to an mRNA strand that contains introns and exons. Which of the two is needed for the
production of proteins, and why?
Exons because they are coding sequences.
Introns because they are non-coding sequences.
Introns because they are coding sequences.
Exons because they are non-coding sequences
Answers
Answer:
Exons because they are coding sequences
Explanation:
The sections of DNA (or RNA) that code for proteins are called exons.
two reasons why extreme cold mathylated spirit is used
Answers
Methylated spirit is used in extreme cold because it has a low freezing point and evaporates quickly.
Why is methylated spirit used in extreme cold?Methylated spirits, also known as denatured alcohol, is a type of alcohol that has been treated with chemicals to make it unsuitable for consumption. It is often used for cleaning or as a fuel for camping stoves.
Extreme cold methylated spirit, also known as freezing mixture, is a mixture of methylated spirits and other chemicals that produce a very low temperature. It is commonly used in science labs and medical facilities for a couple of reasons:
To create a low-temperature environment: Extreme cold methylated spirit can create temperatures as low as -70°C, which is useful for storing samples, such as blood, tissue, or DNA, for research purposes.To remove heat from an object: Extreme cold methylated spirit can be used to rapidly cool down objects, such as metal tools or electronic components, for maintenance or repair purposes.
In both cases, extreme cold methylated spirit is preferred over other cooling methods because it is easy to handle, has a low cost, and does not leave any residue.
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Gregory is studying Lake Mairead. The lake has clear water and supports a healthy community of algae, fishes, and other aquatic organisms. Gregory hypothesizes that phosphorus is a limiting nutrient in the lake. Which experimental result provides the strongest evidence in support of the hypothesis? A. Filtering and removing phosphorus from a sample of lake water causes an increase in the growth of algae in the sample. B. Adding phosphorus-rich fertilizer to a sample of lake water causes no observable effect. C. Adding phosphorus-rich fertilizer to a sample of lake water causes an increase in the growth of algae. D. Measurements show that phosphorus is more concentrated in bottom sediments than in the lake water.
Answers
Answer:
The correct answer is option C.
Explanation:
Freshwater, like lakes, has less amount of phosphorous and aquatic animals, and organisms not able to access it in there. Phosphorous generally found in the terrestrial ecosystem.
Its less concentration makes it less concentration which is present in the aquatic matter as it is a sticky compound. So the growth of algae can be increase by adding phosphorus-rich fertilizer to a sample of lake water.
Thus, the correct answer is - option C.
Answer:
Adding phosphorus-rich fertilizer to a sample of lake water causes an increase in the growth of algae.
Explanation: just took the test 100%