If a sample of DNA contains 25% adenine, what percent Thiamine would it contain
Answer:
25%
Explanation:
adenine and thymine are base pairs so there will be an equal amount of adenine to thymine.
Around a pond, there is a small population of turtles. Some of them have solid dark brown shells and some of them have yellow and brown shells with yellow spots. Spotted shells are dominant over solid shells. Six of the turtles are homozygous for the spotted shells, four are heterozygous and two are homozygous for the solid shells.
1. How many total alleles are there in this particular gene pool?
2. How many dominant alleles are there? Recessive?
3. Calculate the allele frequency for the dominant and the recessive allele.
4. If over time, due to a change in the environment, the solid dark brown shells became the advantageous color, what would likely happen to the frequencies of the gene pool?
5. If the allele frequency of a particular trait is 100 percent, describe the genetic variation for that trait in the population.
Answer:
1. 2 alleles, solid brown and spotted
2. 1 dominant, spotted, and one recessive, solid
3. Dominant: 16/24 Recessive: 8/24. Spotted- R, solid, r. There are 6 RR, 4 Rr and 2 rr.
4. It would slowly become more common and common. When a spotted and a solid pairs, its still most likely that the offspring will be spotted, however as most spotted die the number of spotted getting offsprings decrease.
5. No genetic variation, everyone in the population has that trait
What type of bone marking enables these bones to fit together to form a joint
(URGENT, IM IN A HURRY), (PLZ ANSWER ASAP)
Match the terrestrial biomes:
1 .
rain forest
evergreen forest of high latitude
2 .
taiga
treeless, lichens, caribou
3 .
desert
humid dense forest, numerous animals
4 .
tundra
plains, mostly small animals , prairies
5 .
grasslands
dry, little vegetation
Answer:
1. Rain forest
humid dense forest, numerous animals
2. Tagia
evergreen forest of high latitude
3. Desert
dry, little vegetation
4 Tundra
treeless, lichens, caribou
5 Grassland
plains, mostly small animals , prairies
Hope this helps~!!!
Terrestrial biomes include Rain forest: humid dense forest, numerous animals, Taiga: evergreen forest of high latitude, Desert: dry, little vegetation, Tundra: treeless, lichens, caribou, Grassland: plains, mostly small animals , prairies.
What are terrestrial biomes?Terrestrial biomes are the ecosystems which are found in a similar climatic pattern in a region that need not to be located in close proximity however the span across the earth. An example of a terrestrial ecosystem is a tropical forest. The various types of biomes in the terrestrial terrain are the forests, grasslands, deserts, and tundra.
Examples of terrestrial biomes are: Rain forest: humid dense forest, numerous animals, Taiga: Evergreen forest of high latitude, Desert: dry, little vegetation, Tundra: treeless, lichens, caribou, Grassland: plains, mostly small animals , prairies.
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Question 4
What part of the cell provides energy?
ro ou o
Mitochondria
Golgi Body
Rough Endoplasmic Reticulum
Cytoplasm
Answer:
It is the mitochondria
Explanation:
Answer:
Mitochondria
Explanation:
Animal cells have mitochondria while plants have chloroplast.
If you play a low note on an instrument, you know that the sound wave has what?
Answer:
long wavelength
Explanation:
What is a hormone?
A. The edge of a neutron
B. A type of amino acids
C. A chemical sent from a gland
b. A type of neurotransmitter
Answer: C? i think it is C but not entirely sure
Explanation:
A hormone is a chemical sent from a gland that regulates various functions in the body.
Explanation:A hormone is a chemical sent from a gland that regulates various functions in the body. It acts as a messenger and helps to coordinate different processes such as growth, development, metabolism, and reproduction. For example, insulin is a hormone produced by the pancreas that helps regulate blood sugar levels.
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When a cell placed in a hypotonic water molecules will tend to... *
remain evenly distributed
move into the call
move out of the cell
move against the concentration gradient
When an organism from one trophic level of a food chain is eaten by the organism at the next level up the chain, an average of about 10% of the energy from the first organism is available for use by the next organism. Where does the other 90% go at each level?
Answer:
The 90 % of energy is released in the ecosystem in the form of heat.
Explanation:
In each trophic levels of ecosystem, 90 percent of energy is lost as heat energy in the ecosystem while only 10 percent of energy is transferred from one trophic level to the next trophic level and becomes a part of that organism. For example, plants are the producer having 5000 kcal energy. When these plants are eaten by primary consumer such as cow, rabbit etc, about 500 kcal of energy is transferred to primary consumer and the rest of it is lost as heat energy.
The other 90% of the energy at each level of the food chain is lost to the environment, primarily through metabolic processes, heat loss, and waste products.
In ecology, the transfer of energy between trophic levels is governed by the principle of energy flow through an ecosystem. When energy enters the ecosystem through producers (usually plants), it is captured through photosynthesis. However, as energy moves through each trophic level, a significant amount is lost and is not available to the next level.
Here's a breakdown of where the energy goes:
1. Metabolic Processes: Organisms use energy for their life processes, such as respiration, digestion, and movement. Much of the ingested energy is used to maintain basic body functions and is lost as heat.
2. Heat Loss: The second law of thermodynamics states that in any energy exchange, if no energy enters or leaves the system, the potential energy of the state will always be less than that of the initial state. This essentially means that some energy is always transformed into heat and dissipated into the environment.
3. Waste Products: Not all parts of the organism are digestible. Some energy is lost in the form of feces and other waste products that are not consumed by the predator.
4. Undigested Parts: Some parts of the prey may not be consumed at all, such as bones, fur, or shells.
5. Growth and Reproduction: Some energy is invested in growth and the production of offspring, which may not be directly available to the predator.
The 10% rule is a simplification and the actual percentage can vary. Some ecosystems may have more efficient energy transfer, but generally, only about 10% of the energy is available to the next trophic level. This inefficiency in energy transfer limits the number of trophic levels in a food chain, typically to four or five. This limitation is known as the trophic pyramid of energy, with the largest amount of energy at the bottom (producers) and successively smaller amounts at each higher trophic level.
I NEED SOMEONE TO WRITE AN ANSWER!! NOT OFF THE WEB!! 100 POINTS!!! The theory of plate tectonics is a relatively new idea, developed in the mid-20th century following the discovery of tectonic features on sea-floors. Can you imagine our explanation of faults, earthquakes, mountains, and rifting before the plate tectonic revolution?
Answer: Plate tectonics is the theory that Earth's outer shell is divided into several plates that glide over the mantle, the rocky inner layer above the core. The plates act like a hard and rigid shell compared to Earth's mantle.
Explanation:
Plates interact at three types of plate boundaries: divergent, convergent and transform. Most of the Earth's geologic activity takes place at plate boundaries.
Answer:
boom ka boon sorry cant ill try
Explanation:
Plate tectonics has revolutionized virtually every discipline of the Earth sciences since the late 1960s and early 1970s. It has served as a unifying model or paradigm for explaining geologic phenomena that were formerly considered in unrelated fashion. Plate tectonics describes seismic activity, volcanism, mountain building, and various other Earth processes in terms of the structure and mechanical behaviour of a small number of enormous rigid plates thought to constitute the outer part of the planet (i.e., the lithosphere). This all-encompassing theory grew out of observations and ideas about continental drift and seafloor spreading.
In 1912 the German meteorologist Alfred Wegener proposed that throughout most of geologic time there was only one continental mass, which he named Pangaea. At some time during the Mesozoic Era, Pangaea fragmented and the parts began to drift apart. Westward drift of the Americas opened the Atlantic Ocean, and the Indian block drifted across the Equator to join with Asia. In 1937 the South African Alexander Du Toit modified Wegener’s hypothesis by suggesting the existence of two primordial continents: Laurasia in the north and Gondwanaland in the south. Aside from the congruency of continental shelf margins across the Atlantic, proponents of continental drift have amassed impressive geologic evidence to support their views. Similarities in fossil terrestrial organisms in pre-Cretaceous (older than about 146 million years) strata of Africa and South America and in pre-Jurassic rocks (older than about 200 million years) of
How can resource availability affect interactions between organisms?
QUICK
Answer:
Alterations in resource availability can increase or decrease the intensity of interactions between organisms. This may also cause evolutionary changes to life history traits.
Explanation:
Explain how prokaryotes that live in the human body can be beneficial
Answer: They ward off disease-causing organisms by competing for space and nutrients on and inside the body. They train our immune system so it's ready when our bodies are attacked, and they aid in digestion and supply us with vitamins. Scientists and doctors can even utilize prokaryotes to help the human body.
If your T Cell count drops below _______ your doctor will diagnose you with AIDS.
A. 200
B. 150
C. 100
D. 50
Answer:
A. 200
Explanation:
When your t cell count drops below 200 you are diagnosed with AIDS.
Answer:
a) 200
Explanation:
A normal range for T- cells is about 500-1,500
HELP!! URGENT!!
Using what you have learned about the many models developed to describe an atom, infer why the model had to change as new information came to light? Defend why this is true or false of all scientific models and theories.
Answer:
True, the model had to change as new information came to light.
After the invention of new instruments, it enable us to do more research and verify old theories.
Dalton atomic theory states that matter is composed of very small particles called atoms which is indivisible. Indivisible means cannot be broken down into simpler substances. But Rutherford performed an experiment and concluded that atom is divisible into proton, electron and neutron. Electron is present in the shell while proton and neutron are present inside the nucleus of an atom.
How many people are born with Leigh syndrome
Answer:
. Leigh is rare and is 1 in 30,000 to 1 in 40,000 people at birth. Mitochondrial DNA-associated Leigh syndrome, which is more rare than nuclear gene-encoded Leigh syndrome, is likely to occur in about 1 in 100,000 to 1 in 140,000 births.
Explanation:
Which of these adaptions would be most beneficial to an animal living in the ocean’s aphotic zone
Answer:
Skin cells that give off light to attract mates i hope im right or its c
What chemical can be used to identify calcite and dolomite?
HELP ME PLSSSS 14 points..
I'm can come do so do do do do do do have b b can come check c g do g is at the you see exp in had
This is a tulip plant.
Which statement best describes the flower based on its physical characteristics?
Options are not provided in teh question. The complete question is as following:
This is a tulip plant. which statement best describes the flower based on its physical characteristics?
a. the tulip plant is classified as a dicot.
b. the tulip plant has netted veins.
c. the tulip plant has ring-like vascular bundles.
d. the tulip plant is categorized as a monocot.
Answer:
d. the tulip plant is categorized as a monocot.
Explanation:
Monocots are the plants which bears' flowers with the seeds containing just a single embryonic leaf or cotyledon.
Tulips have the flower parts or seed leaves are in multiples of threes and have parallel veins. A tulip is a Monocot due to its characteristics of bearing seeds with ony one cotyledon.
Hence, the correct option is d.
After the Krebs cycle only a small portion of the energy of gluecose has been converted to atp. At this point the majority of usable energy contained in
Cellular respiration is a three-part process including glycolysis, the Krebs cycle, and electron transport chain, designed to extract energy from glucose. Only a small portion of the energy is converted to ATP after the Krebs cycle. Most of the energy is still carried by high-energy electrons sent to the electron transport chain.
Explanation:The process you're asking about is called cellular respiration and is used to extract usable energy from glucose. It is a three-part process involving glycolysis, the Krebs cycle, and the electron transport chain.
Glycolysis, which occurs in the cytoplasm of the cell, is the first stage. In this process, glucose is split into two three-carbon sugars, with the investment and subsequent production of 2 ATP per glucose molecule. Next, the Krebs cycle (or Citric Acid Cycle) takes place in the mitochondria and produces a small amount of ATP, but its main purpose is to provide high-energy electrons used in the next stage.
The electron transport chain is where most of the energy is produced. The high-energy electrons provided by the Krebs cycle are used to create a large amount of ATP as they are transported along a series of proteins. This whole process only extracts about 34 percent of the energy contained in glucose, with the rest being released as heat.
Therefore, it is correct that only a small portion of the energy of glucose has been converted to ATP after the Krebs cycle. Most of the energy is still in high-energy electrons passed on to the electron transport chain.
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Swedish scientist Carl Linnaeus is known for creating the first version of the modern taxonomy system in the 1700s. Which of the following is NOT a classification in the Linnaean system of naming?A:Genus B:Species C:Class D:Prokaryote
Answer:
D. Prokaryote
Explanation:
The Linnaean system of naming consists of domain, kingdom, phylum, class, order, family, genus, and species. I remember it with "D- King Phillip Came Over For Great Soup".
I hope this helps!
Final answer:
The classification 'Prokaryote' is NOT part of the Linnaean system of naming; Carl Linnaeus's system includes Genus, Species, and Class among other ranks.
Explanation:
Swedish scientist Carl Linnaeus is renowned for creating the first comprehensive taxonomy system in the 1700s, which is crucial for the science of taxonomy, the classification and naming of organisms. The Linnaean system includes a hierarchical structure with several levels of classification, including Kingdom, Phylum, Class, Order, Family, Genus, and Species. Notably, Linnaeus is responsible for introducing binomial nomenclature, where each species is given a two-word name, with the first word indicating the genus and the second the species itself.
The correct answer to the student's question is D: Prokaryote. This term refers to a broad grouping of organisms that do not have a nucleus, which falls outside the hierarchical ranks established by Linnaeus. Instead, the classifications within the Linnaean system are Genus, Species, and Class, making Prokaryote the classification not part of the Linnaean system of naming.
Which of the following happens at mid-ocean ridges and is essential for the process of plate tectonics being able to continue?
A). Old rock is melted into magma.
B). New rock is formed from magma.
C). Seamounts are shaped.
D). Trenches are destroyed.
At mid-ocean ridges, new rock is formed from magma, which is essential for plate tectonics to continue.
Explanation:Mid-ocean ridges play a vital role in the dynamic process of plate tectonics. These underwater mountain ranges are located at divergent boundaries, where tectonic plates are moving apart from each other. At these locations, new rock is formed through a process involving magma.
Magma, which is molten rock beneath the Earth's surface, rises up from the mantle to fill the gap created by the separating tectonic plates. As the magma approaches the ocean floor, it encounters lower pressure, causing it to melt and form new rock. This process is known as decompression melting. The newly formed rock solidifies upon contact with the cold seawater, creating fresh oceanic crust.
Over time, this continuous cycle of magma rising, solidifying, and forming new rock contributes to the expansion of the seafloor. As new crust is generated at mid-ocean ridges, it pushes the existing oceanic crust away from the ridge in both directions, driving the movement of tectonic plates and influencing the shape and size of Earth's continents.
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I need help please and thank you
Answer:
Vacuoles
Explanation:
Vacuoles are the primary organelles for storing various substances in plant cells. These materials include water, ion, sugar, cellular compounds and more.
3. Is it possible for a mom who can see color and is a heterozygous carrier for
colorblindness (XRXr) and a normal-vision dad (XRY) to have a colorblind
daughter? Explain and show your understanding. Colorblindness is an
X-linked recessive trait.
The role of ATP synthase is to
A. convert NADH into NAD+.
B. convert FADH into FAD.
C. convert ADP into ATP.
D. convert ADP into NADH.
A large power plant burns coal to generate electricity for nearby homes and businesses. This contributes most directly to which short-term human-induced environmental change?
Answer:
global warming
Explanation:
Answer:
global warming
Explanation:
I think this is right. Hope this helps.
By comparing fossils in higher sedimentary layers with fossils in lower sedimentary layers, scientists can learn which of the following?
which types of organisms were more common during various time periods
the relative age of different species
how species have evolved over time
By comparing fossils in higher sedimentary layers with fossils in lower sedimentary layers, scientists can learn which types of organisms were more common during various time periods, the relative age of different species, and how species have evolved over time.
Explanation:By comparing fossils in higher sedimentary layers with fossils in lower sedimentary layers, scientists can learn which types of organisms were more common during various time periods, the relative age of different species, and how species have evolved over time.
Fossils provide solid evidence that organisms from the past are not the same as those found today and show the gradual evolutionary changes over time. By observing the order in which fossils appear in rock layers, scientists can determine the relative age of different species and track the changes in organisms over time.
Final answer:
Comparing fossils from different sedimentary layers enables scientists to understand when certain organisms were prevalent, their relative ages, and evolutionary changes over time using the fossil record and relative dating techniques.
Explanation:
By comparing fossils in higher sedimentary layers with those in lower sedimentary layers, scientists can determine which types of organisms were more common during various time periods, the relative age of different species, and how species have evolved over time. The fossil record is a critical tool for understanding the history of life on our planet, providing evidence for when organisms lived and how they have changed. Relative dating techniques allow scientists to establish the sequence of these changes and correlate the ages of different fossils without knowing their exact ages in years.
what is the function of Mitochondrion?
Answer:
The main function of mitochondria is to perform cellular respiration. This means it takes in nutrients from the cell, breaks it down, and turns it into energy.
the muscles that start shivering represent which
part of the control system?
Answer:
The thermostatic control center in the hypothalamus.
Explanation:
In the hypothalamus, a control area presents which controls the temperature of the body. Primary motor center for shivering present in the posterior hypothalamus which is continuously inhibited by heat signals which come from the heart center present in the anterior hypothalamus. But when the body felt cold than from the skin and spinal code signals generated and excite the shivering area. The body starts shivering which involves muscles of the body.
Answer:
Primary motor center is a system which is responsible for shivering of muscles.
Explanation:
Primary motor center is an area which is responsible for the movement of muscles by producing impulses. Shivering is also the movement of muscles which occurs when the body feels cold. This shivering occurs for the production of heat in the body and soon the body gets warm.
In dragons, shiny scales are dominant and dull scales are recessive. A baby dragon has dull scales, but both of its parents have shiny scales. Could this be shown to be possible with a Punnett Square?
Yes or no?
The answer for your question is No.