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Answer:
zone out the shower and then you can do is be there at like a plan for
Related Questions
An amino acid's unique characteristics is defined by the ________.
Answers
If I’m running a marathon characteristics of life would I need to survive
Answers
Along with smart training methods, intuition is the best tool a runner can have for preventing injury.
what can happen to solar radiation when it enters earths atmosphere
Answers
It is either reflected off snow, ice, or other surfaces or it is absorbed by the Earth's surface.
Answer:
It is absorbed or reflected as it travels to Earth’s surface.
Explanation:
why is it important to classify bones
Answers
Answer:
Explanation:
Classifying bones is important for several reasons:
Understanding bone function: By classifying bones based on their shape, size, and location, we can gain insights into their function. For example, long bones, like the femur in the leg, are designed for weight-bearing and movement, while flat bones, like those in the skull, protect vital organs.
Diagnosis of bone diseases and conditions: Knowing the type of bone affected can help doctors diagnose and treat bone diseases and conditions. For example, osteoporosis primarily affects trabecular bone, while Paget's disease affects both cortical and trabecular bone.
Forensic identification: In forensic science, bone classification can be used to identify victims and provide evidence in criminal investigations.
Evolutionary studies: Comparing the bones of different species can provide insights into evolutionary relationships and adaptations. For example, the differences in the shapes of the pelvic bones between humans and chimpanzees indicate differences in the way the two species walk.
Overall, classifying bones is essential for understanding their structure, function, and relationships with other bones, both within and between species.
what is tardigrade? Like what it is you know ? please tell meeeeeeeeeee
Answers
Answer:
what is tardigrade? known colloquially as water bears or moss piglets, are a phylum of eight-legged segmented micro-animals.
Tardigrades pose no threat to humans. Scientists have yet to identify a species of tardigrade that spreads disease.
What are the processes that provide most of the energy for all other life processes
Answers
The primary processes that provide energy for all other life processes are cellular respiration and photosynthesis.
Cellular respiration is the process by which cells convert organic molecules, such as glucose, into usable energy in the form of adenosine triphosphate (ATP). It occurs in the mitochondria of eukaryotic cells and involves a series of enzymatic reactions that break down glucose and other molecules, releasing energy in the process.
Photosynthesis, on the other hand, is the process by which plants, algae, and some bacteria convert sunlight, water, and carbon dioxide into glucose and oxygen. This process occurs in the chloroplasts of plant cells, specifically in the chlorophyll-containing structures called thylakoids. During photosynthesis, light energy is captured by chlorophyll molecules, which drives the synthesis of glucose through a series of complex reactions.
Together, these two processes form a cycle of energy flow in ecosystems. Photosynthesis captures energy from the sun and converts it into chemical energy in the form of glucose, which is then used by organisms in cellular respiration to generate ATP, the energy currency of cells. This ATP is subsequently used for various life processes such as growth, reproduction, movement, and maintenance of cellular functions.
In summary, cellular respiration and photosynthesis are the fundamental processes that provide the majority of energy for all other life processes, sustaining the functioning and survival of organisms in ecosystems.
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How many more phases occur during meiosis than during mitosis? none two four six
Answers
Answer:
4
Explanation:
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how does biodiversity help with farming
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Answer:
biodiversity is the basis of agriculture and our food systems. agricultural biodiversity also performs ecosystem services such as soil and water conservation, maintenance of soil fertility, conservation of biota and pollination of plants, all of which are essential for food production and for human survival.
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Why does the Moon have a greater effect on the tides than the Sun?
The Moon is larger than the Sun.
The Moon is closer than the Sun to Earth.
The Moon is solid while the Sun is gaseous.
The Moon rotates more quickly than the Sun.
Answers
Answer:
The Moon is closer than the Sun to Earth.
Explanation:
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Joshua needs to convert some sales data into charts for a quarter-end report. What would be the BEST software to do that?
Question 10 options:
word processing software
direct messaging software
spreadsheet software
video editing software
Answers
I apologize if this is incorrect.
What is true of all body cells except sex cells?
While each cell type in the body contains the same kinds of genes, they are organized on a different number of chromosomes depending on the cell type.
Each body cell contains the same number and kinds of chromosomes for that organism. In humans, the same 46 chromosomes are in every body cell.
Each body cell type carries a different number of chromosomes that code for that type of cell.
While each cell in the body contains the same number of chromosomes, each cell type has a different number of genes along those chromosomes.
Answers
Answer:
While each cell in the body contains the same number of chromosomes, each cell type has a different number of genes along those chromosomes.
Help me please Yall I swear this is so anoying
Answers
Explanation:
Photosynthesis is performed by all plants,algae and even some microorganisms. Which plants use sunlight,water and carbon dioxide to create oxygen and energy in the form of sugar/ aka glucose/food for plants
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Which is a biotic factor?
Answers
Answer:
a living organism that shapes its environment
Explanation:
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Consider the three most common types of skin cancer. Then, click and drag each label into the appropriate category.
Arises from keratinocytes in the deepest layer of the epidermis
Raised, reddened, scaly appearance
If metastasized, the deadliest skin cancer
Seldom spreads to other tissues
Arises from superficial cells of the epidermis
Caused by mutations commonly found in moles
Most common type
Can spread from the keratinocytes to the ph nodes
Arises from the cells that protect from UV light
Least common type
Answers
The labels for each type of skin cancer are;
Basal Cell Carcinoma:
Most common typeSeldom spreads to other tissuesArises from the deepest layer of the epidermisMelanoma:
If metastasized, the deadliest skin cancerArises from the cells that protect from UV lightLeast common typeCaused by mutations commonly found in molesSquamous Cell Carcinoma:
Arises form superficial cells of the epidermisRaised, reddened, scaly appearanceCan spread from the keratinocytes to the lymph nodesWhat is skin cancer?Skin cancer is an abnormal growth of skin cells often occurring after long exposure to the sun. Basal cell carcinoma is a most common type that rarely spreads to other tissues and comes from the epidermis.
Squamous Cell Carcinoma and melanoma are other types of skin cancers and melanoma is the deadliest of them.
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Briefly explain the primary roles of NADH and FADH2 in cellular respiration.
Answers
NADH is the Nicotinamide adenine dinucleotide e FADH2 is the Flavin adenine nucleotide, both of them are high energy electron carriers. They are reponsible for transporting electrons generated in Glycolises and Krebs Cycle to the Electron Transport Chain, creating ATP.The difference between them is that a NADH molecule produces 3 ATP molecules while a FADH2 molecule produces 2 ATP molecules.
What phenomena in the natural world do mythical creatures try to prove?
Answers
Answer:
Global warming
Explanation:
because now a days temperature us rising of earth
Carolina uses a microscope to view a soil sample taken from her backyard. Which part of the soil
would she ONLY be able to see with a microscope?
A bacteria
B grass
C rainwater
D rocks
Answers
Answer: A) bacteria
Explanation: bacteria is too small to be seen without a microscope and the rest can be seen without a microscope making A) Bacteria the only correct answer
Tall pea plants are dominant, while short plants are recessive. In a cross between a purebred tall plant and a purebred short plant, the offspring will all be _______ plants.
Tall pea plants are dominant, while short plants are recessive. In a cross between two plants heterozygous for height, the offspring will be both tall and short in a _______ ratio.
Respond to the following based on your reading.
Explain why it's unknown which of two alleles an offspring will obtain from its biological mother or father for a given characteristic.
Reginald Punnett sought to apply the insights obtained by Mendel to explain the laws of inheritance in a structured fashion. What's a Punnett square and how is it used?
You're conducting a science experiment crossing two different purebred mouse strains, which each contain a different variation of the same gene, for two generations. What do you expect to see as the phenotypes of the first generation? The second generation?
How closely do Mendel's insights into dominant and recessive traits match up with the ratios that Punnett calculated in his Punnett squares?
Answers
Assuming complete dominance for all the genes, a) the offspring will all be Tall and heterozygous plants. b) 3:1 ratio. c) Punnett squares are used to combinate the parental gametes and make predictions about the possible genotypes and phenotypes among the progeny. d) First generation 100% heterozygous expressing the dominant phenotype. Second generation: 25% homozygous dominant + 50% heterozygous + 25% homozgous recessive. 75% expressing the dominant phenotype + 25% expressing the recessive phenotype. e) Mendel's insight and Punnett squares match perfectly with the expected ratios.
What are complete dominance and Punnett squares?
Complete dominance is an inheritance pattern that becomes evident in heterozygous individuals. The presence of at least one dominant allele is enougth to hide the expression of the recessive allele. In these cases, the individual expresses the dominant phenotype.
The Punnett square is a graphic representation that shows the different types of gamete combinations according to the alleles involved in a cross.
Punnett square shows the probabilities of getting offspring with different genotypes and their consequent phenotypes.
Tall pea plants are dominant, while short plants are recessive. In a cross between a purebred tall plant and a purebred short plant, the offspring will all be _TALL_ plants.All these plants will be heterozygous and express the dominant phenotype (Tall).
Tall pea plants are dominant, while short plants are recessive. In a cross between two plants heterozygous for height, the offspring will be both tall and short in a _3:1_ ratio.1/4 = 25% of the progeny are expected to be homozygous dominant
2/4 = 50% of the progeny are expected to be heterozygous
1/4 = 25% of the progeny is expected to be homozygous recessive
25% homozygous dominant + 50% heterozygous = 75% dominant phenotype
Punnett squares discriminate parental gametes and combinates them when the columns and the rows meet. The cells where columns and rows meet (gamete combinations) gives the progeny genotypes. Cross: two different purebred mouse strainsParentals) PP x pp
Gametes) P P p p
Punnett square) P P
p Pp Pp
p Pp Pp
F1) 100% heterozygous expressing the dominant phenotype
Parentals) Pp x Pp
Gametes) P p P p
Punnett square) P p
P PP Pp
p Pp pp
F2) Expected Genotypes
1/4 = 25% PP 2/4 = 50% Pp1/4 = 25% pp
Expected Phenotypes
3/4 = 75% Dominant phenotype (PP + Pp)1/4 = 25% Recessive phenotype (pp)Mendel's insights into dominant and recessive traits match up perfectly with the ratios that calculated using a Punnett square.
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PLEASE HELP! Thank you! Website doesn’t work
Answers
The Bacteria and what their features represent include bacillus ( rod shaped ), coccus ( spherical), spirillum ( spiral ), diplo ( pairs ), strepto (chains), and staphylo (clusters).
What are some types of bacteria ?There are various types of bacteria that occur in nature and some of them include:
bacillus - Rod-shaped bacteriacoccus - Spherical-shaped bacteriaspirillum - Spiral-shaped bacteriadiplo - Bacteria that occur in pairsstrepto - Bacteria that occur in chainsstaphylo - Bacteria that occur in clusters or groupsHow do Bacillus occur in nature?The bacteria in the diagram include:
Diagram 1: BacillusDiagram 2: DiplococcusDiagram 3: StreptococcusDiagram 4: CoccusDiagram 5: StreptococcusDiagram 6: BacillusDiagram 7: SpirillumDiagram 8: StaphylococcusDiagram 9: BacillusBacillus occurs in nature in various forms, including soil, water, and air. They are commonly found in soil, where they play a vital role in decomposing organic matter. Bacillus also occurs naturally in water, including freshwater and saltwater.
Some Bacillus species are known to survive extreme environmental conditions, including high temperatures, radiation, and desiccation, allowing them to exist in a dormant state for extended periods.
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Image transcribed:
Use the following website: http://biology.clc.uc.edu/courses/bio106/bacteria.htm or your notes to fill in the meaning of the term on the line next to the term.
1. bacillus
2. coccus
3. spirillum
4. diplo
5. strepto
6. staphylo
Use the terms you defined above to name the bacteria in each diagram below. Write the name on the line below each diagram. Note: Some names will combine two of the terms. For instance, a chain (strepto) of round (coccus) bacteria is called streptococcus.
Assertion (A): A proton gradient cannot be established in the mitochondria. Reason (R): Hydrogen molecules are pumped out of an internal space (the matrix) in the mitochondria.Which of the following is TRUE for the above statements?
Answers
The proton gradient is needed to carry out the process of oxidative phosphorylation of the electron chain transport, so the "Assertion (A)" statement is false, and the "Reason (R)" is true, as it was already chosen in the answer options.
Explain the light detection technique of photo emissive detection
Answers
Photo emissive detection converts light energy into electrical signals using a photo cathode that emits electrons when photons strike it, allowing for light intensity measurement.
Light detection using photo emissive detection involves the conversion of light energy into electrical signals through a photo emissive material. This technique is based on the phenomenon of the photoelectric effect, where photons of light can cause the emission of electrons from a material's surface.
Photo emissive detectors typically consist of a photo cathode made of a material with low work function, such as cesium or potassium compounds. When photons of sufficient energy strike the photo cathode, they transfer their energy to the electrons within the material, causing some electrons to be emitted from the surface.
The emitted electrons are then accelerated towards an anode electrode by an electric field, creating a current flow. This current is directly proportional to the intensity of the incident light, allowing for the measurement of light levels.
To improve the efficiency of the photo emissive detection, a voltage bias can be applied between the photo cathode and the anode. This accelerates the emitted electrons and increases the overall sensitivity of the detector.
Photo emissive detection is commonly used in applications such as photomultiplier tubes (PMTs) and image intensifiers. PMTs are used to detect low levels of light and are widely employed in scientific research, medical imaging, and night vision devices. Image intensifiers amplify incoming light to produce brighter images in night vision goggles and other imaging systems.
In summary, photo emissive detection is a light detection technique that relies on the photoelectric effect to convert light energy into electrical signals. It utilizes a photo cathode, which emits electrons when exposed to photons, and an anode to collect these emitted electrons, resulting in a measurable current.
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Use evidence from the simulation to support the
claim that a decrease in light levels at latitudes
greater than 30° will lead to a decrease in coral
diversity, and explain why this will lead to a
decrease in biodiversity of the other species in
the coral reef ecosystem. Enter your answer in
Answers
The evidence from the simulation to support the decrease in biodiversity of the other species in the coral reef ecosystem.
Why are coral reefs disappearing?Coral reefs are disappearing because of a mix of local pressure and climate change.
Local pressures include overfishing, caused by commercial agriculture; pollution; nutrient enrichment of reef waters, which is harmful to coral reefs; and coastal growth.
Thus, option "D" is correct, decrease in biodiversity of the other species in the coral reef ecosystem.
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Assume that conditions in Paxton Lake, including the availability of benthos and zooplankton and the number and type of predators in the benthic and limnetic zones, remain unchanged. If you returned to Paxton Lake in a thou- sand years and collected data about the mating choices of benthic and limnetic sticklebacks and the proportions of benthic, limnetic, and hybrid sticklebacks in the lake, what would you expect to find
Answers
Answer:
The sticklebacks will remain a single species
Explanation:
When species leave in an area with favorable conditions, it feeds and reproduces freely, and when these conditions (availability of food, predator population) remain unchanged for a long period of time, the specie's physiology and habits would also remain unchanged (there would be no speciation).
Why are seeds an evolutionary advantage for seed plants?
Seeds allow for the transport of water and nutrients.
Seeds develop into adults without sexual reproduction.
Seeds protect and nourish young, growing plants.
Seeds provide the materials for photosynthesis.
Answers
Answer:
Seeds protect and nourish young, growing plants.
Explanation:
Seeds allow for young plants to be protected in the hard case of the seed.
Seeds also contain a food supply that allows for the young plants to be nourished.
So, seeds are an evolutionary advantage for plants because they protect and nourish growing plants.
The reason why seeds are an evolutionary advantage for seed plants is because: C. Seeds protect and nourish young, growing plants.
What is an evolution?Evolution can be defined as a process of gradual change in the characteristics and genetic pool (make-up) of the species of a living organism over several generations.
What is a seed?A seed refers an embryonic plant or a fertilized ovule which contains the plant embryo that are generally enclosed in a protective outer covering and are used for plant reproduction.
In conclusion, seeds are an evolutionary advantage for all seed plants is because they protect and nourish young, growing plants.
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Question 9 of 10
Sound wave A has a higher pitch than sound wave B. What must also be true
of these two waves?
O A. Wave A has a higher frequency than wave B.
B. Wave A has a lower frequency than wave B.
C. Wave A is softer than wave B.
O D. Wave A is louder than wave B.
Answers
Answer:
wave A has a higher frequency then wave b
Explanation:
test
The true statement regarding the two sounds is Wave A has a lower frequency than wave B. Thus, option "B" is correct.
What is the pitch of a sound?The pitch of a sound is the sensation of the sound frequency.
A high pitch sound corresponds to a high-frequency sound wave and a low pitch sound corresponds to low frequency.
Sound of the same amplitude has the same loudness.
Thus, option "B" is correct.
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An experiment is done on three tomato plants over a 50 day period to test the following hypothesis: If either fertilizer or compost is used on plants, then a plant that gets fertilizer will grow the most.
The same amount of water and light were applied to each tomato plant. Pot A contained no fertilizer or compost, Pot B contained fertilizer, and Pot C contained compost. Which pot is the control?
Answers
Pot A that contained no fertilizer or compost will serve as a control in this experiment.
What is Fertilizer?Fertilizer may be defined as any chemical or natural substance which is added to the soil with the intention to enhance the soil productivity.
Pot B contained fertilizer, while pot C contained compost, they will definitely grow more than pot A, but pot A serve as a control for this experiment because it does not contain any added resources into it. Hence, it grows naturally.
Thus, it is well described above.
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which feature of model 1 best illustrates how biological information is coded in a DNA molecule
The five and three labels at the end of each strand
The labeling of the hydrogen bonds between base pairs
The lines connecting sugars and phosphate groups that represent covalent bonds
The linear sequence of the base pairs
Answers
Answer:
model 2
Explanation:
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september would the earth be experiencing a solstice or an equinox
how do you know
Answers
In September the earth will be experiencing an equinox
Equinoxes occur between March and September. When the Sun's rays strike the equator at midday and at a 90° angle, it is considered an equinox. It stands for the idea that day and night have equivalent lengths. The sunset and dawn are separated by 12 hours everywhere on Earth. One may observe how quickly the sunset and dawn hours shift throughout the day the farther one goes from the equator.
Whereas, solstices occur in June and December. The contrary is visible close to the solstices. For a few days, both the sunset and sunrise appear to be constant. Over the course of the year, the time of day when the sun is directly overhead where one lives also gradually changes.
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How to make a Lab report for
Diffusion Across a Semi-permeable Membrane
Answers
Answer:
To analyze the cell.
Explanation:
Make a Laboratory report for diffusion across a semi-permeable membrane by analysis of cell through experiment. diffusion across a semi-permeable membrane occurs in the cell so the cell must be studied for making report. A process in which molecules pass through a semipermeable membrane of the cell from a region of less concentrated solution into a region of more concentrated one is called osmosis. This semipermeable membrane of the cell allows small size substances to pass through it.
The most common nosocomial infection in patients admitted to the hospital?
Answers
Answer:
What is the most common type of nosocomial infection? Though various bacteria, viruses, and fungi can all cause nosocomial infections, the most common is the bacterium Staphylococcus aureus.
Answer:
Biology
Explanation:
The most common nosocomial infection (also known as healthcare-associated infection) in patients admitted to the hospital varies depending on the population studied and the region of the world. However, some of the most common types of nosocomial infections include:
1. Urinary tract infections (UTIs): These infections occur when bacteria enter the urinary tract through a catheter or other medical device. UTIs are particularly common in patients who have undergone surgery, have urinary catheters, or have other urinary tract abnormalities.
2. Surgical site infections (SSIs): These infections occur at the site of a surgical incision or implant. SSIs are more common in patients who have undergone major surgeries, such as abdominal or orthopedic procedures.
3. Ventilator-associated pneumonia (VAP): VAP occurs when bacteria enter the lungs through a mechanical ventilator. This type of infection is more common in patients who require prolonged mechanical ventilation, such as those in the intensive care unit.
4. Bloodstream infections (BSIs): BSIs occur when bacteria or other pathogens enter the bloodstream, often through an intravenous catheter. Patients who are immunocompromised or who have a central line are at higher risk for developing BSIs.
5. Gastrointestinal infections: These infections can be caused by bacteria such as Clostridium difficile, which can be spread through contact with contaminated surfaces or healthcare workers.
Preventing and controlling nosocomial infections is a major priority in healthcare settings. Hospitals have infection control programs that aim to reduce the risk of these infections through measures such as hand hygiene, environmental cleaning, and appropriate use of antibiotics.