Correct answer: B). Cohesion; adhesion
Cohesion is defined as the force of attraction between the same substances while that of adhesion is defined as the force of attraction between the different type of substances.
Cohesion is the force that is known to hold the hydrogen bond together in order to create surface tension of water molecules. While that of adhesive force is responsible for pulling the water molecules towards the other molecules.
Hence, the correct answer would be ''Cohesion; adhesion''
What is the function of a cells selectively permeable plasma membrane?
It allows some molecules to enter the cell and blocks entry to others
Which type of chromosomal mutation causes this form of Down syndrome?
Trace the path of a labeled carbon atom through the biological processes of photosynthesis and respiration. The atom will start its journey inside a carbon dioxide molecule and it will end in the air inside a new carbon dioxide molecule. Your mission is to use your knowledge of photosynthesis and respiration to explain what happens to the carbon atom in these processes.
A labeled carbon atom begins in a molecule of carbon dioxide, gets incorporated into glucose during photosynthesis, and then is released back into the atmosphere as a new carbon dioxide molecule during cellular respiration. This demonstrates the carbon atom's vital role in the carbon cycle, highlighting the interrelated nature of photosynthesis and respiration in energy transfer within ecosystems.
Trace the Path of a Carbon Atom through Photosynthesis and Respiration-
The journey of a carbon atom starts in a molecule of carbon dioxide during the process of photosynthesis. In this process, plants capture solar energy and use it to convert carbon dioxide and water into glucose, releasing oxygen as a byproduct. Our carbon atom becomes part of a glucose molecule, specifically stored in the covalent bonds that will later be broken during cellular respiration.
During cellular respiration, the carbon atom is released from glucose as part of a carbon dioxide molecule, which is then expelled from the organism. It is interesting to note that the covalent bonds formed during photosynthesis can be incredibly long-lasting and stable. The energy released during cellular respiration is partly used to create ATP (adenosine triphosphate), the energy currency of cells.
Finally, the carbon atom finds itself back in the atmosphere as part of a new carbon dioxide molecule, ready to be used again in the ongoing cycle of photosynthesis and respiration by plants and other living organisms. This illustrates the significant role of these two processes in the carbon cycle, ensuring the transfer and transformation of energy through ecosystems.
This is a chemical process that uses light to process carbon dioxide in plants.
Answer:
Photosynthesis
Explanation:
The conversion of unusable sunlight energy into usable chemical energy.
Some species of organisms can reproduce either asexually through mitosis or sexually, which requires meiosis. In which of the following situations would it be the least beneficial for a species to reproduce asexually rather than sexually?
a. one in which potential mates are difficult to find
b. one in which resources such as food and water are abundant
c. one in which the environment undergoes sudden, drastic changes
d. one in which the species is not capable of locomotion ...?
Correct answer: C). One in which the environment undergoes sudden, drastic changes
Asexual reproduction is defined as a mode of reproduction, in which only one parent is responsible for carrying out the process of reproduction, it do not involve fusion of female and male gamete.
As the offspring that results from the asexual reproduction have same genetic makeup and physical appearance, it means they do not have any variation, so in the case of sudden changes they are not able to survive and cope up with the changes.
Hence, the correct answer would be option C.
Asexual reproduction would be least beneficial in situations where the environment undergoes sudden, drastic changes because genetic diversity, achieved through sexual reproduction, is crucial for dealing with changing environmental conditions.
Explanation:Asexual reproduction, such as mitotic budding, fragmentation, or producing asexual eggs, allows a species to rapidly expand in number because every individual is capable of reproducing, and it doesn't require the energy expenditure of finding a mate; however, sexual reproduction, through meiosis, provides genetic diversity, which can be critically important when facing environmental changes.
In the scenario where the environment undergoes sudden, drastic changes, reproducing asexually would be the least beneficial. This is because asexually produced offspring are genetically identical to the parent, and in a dramatically changing environment, genetic diversity would enhance the chances of survival of some offspring. Thus, sexual reproduction would be more advantageous in such situations.
In contrast, asexual reproduction is most advantageous in stable environments where a successful parent's traits would likely lead to successful offspring without the need for genetic variation to cope with changes.
Over long periods of time, rock materials erode down the side of a mountain. What type of rock would you must likely find at the bottom of the mountain
The largest group that is capable of interbreeding is ______.
____ are organisms that get their energy from
which of the following structures is made up mostly of water
What is the meaning of the word "thermal" in this sentence? all boys coming on the school camping trip need to bring a pair of long thermal underwear because it is going to be very cold this weekend.
The word 'thermal' in 'thermal underwear' refers to clothing that retains body heat, providing insulation and keeping the body warm in cold conditions. It is connected to the concept of thermal energy and the transfer of heat.
Explanation:In the sentence, 'All boys coming on the school camping trip need to bring a pair of long thermal underwear because it is going to be very cold this weekend,' the word 'thermal' refers to clothing that is specially designed to retain body heat. Thermal underwear is made from fabrics that provide insulation, which helps to keep the body warm by trapping heat close to the skin. This type of clothing is particularly useful in cold environments where maintaining body heat is essential for comfort and prevention of hypothermia. The term 'thermal' relates to heat and comes from the concept of thermal energy, which is the energy that comes from the kinetic energy of particles within a material.
When we talk about thermal contact, it means that two objects are in such a relationship that they can transfer energy through heat. Similarly, when we say something is 'thermal-ized,' we mean that energy has been transferred into heat, or into the random kinetic energy of particles. In summary, 'thermal' in the given context is used to describe underwear that provides warmth and insulation against cold temperatures.
describe the relationship between energy stored in food and ATP
The energy stored in food is used to produce ATP, which is the primary energy source for most cellular processes in living organisms, and the food is broken down into its constituent molecules through the process of digestion.
What is ATP in food?Cellular respiration is a series of chemical reactions that occur in the presence of oxygen, called "aerobic respiration," or in the absence of oxygen, called "anaerobic respiration," in aerobic respiration, glucose(food) is broken down into carbon dioxide and water in a series of reactions that involve the transfer of electrons from glucose(food) to oxygen and that make ATP through a process called "oxidative phosphorylation."
Hence, the energy stored in food is used to produce ATP, which is the primary energy source for most cellular processes in living organisms.
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What is a testable idea about a set of observations or natural phenomenon? Hypothesis, theory, or observation?????
Which scenario would most likely cause a mass extinction?
A. global temperatures drop several degrees after several massive volcanic eruptions
B. a disease kills off a single species of predator within an ecosystem
C. a massive earthquake strikes North America
D. a wildfire burns a national park
(I think it would be B)
A. global temperatures drop several degrees after several massive volcanic eruptions
Explanation;A mass extinction refers to a widespread and a rapid decrease in the Earth's biodiversity. Mass extinctions may occur due to a number of reasons which includes, asteroid impacts, climate change, massive volcanic eruptions or a combination of all these causes. An example of mass extinction was during the Mesozoic Era, that led to the extinction of dinosaurs, about 65 million years ago.Answer:
A. global temperatures drop several degrees after several massive volcanic eruptions
Explanation:
If any event causes widespread destruction of life on earth that would rapidly decrease the biodiversity, then such an event is called a mass extinction.All the organisms living on the planet require an optimum temperature for their survival, besides the temperature also influences the geological activities such as the weather, rainfall patterns, survival of plants and hence the amount of oxygen and control of pollution.Due to the importance of temperature, the drop in it globally would have a major impact on the living beigns. Since a drop in global temperatures would affect the organisms all over the planet this will lead to mass extinction.A normal father marries woman who is a carrier for duchenne's muscular dystrophy, a recessive sex linked disorder. Any male child produced by these parents would have muscular dystrophy.
true or false?
Describe an organism that uses each of the following:
Aerobic Respiration-
Anaerobic Respiration-
Lactic Acid Fermentation-
Alcoholic Fermentation-
Organisms that undergo Aerobic Respiration include humans and yeast in oxygen-rich environments. Anaerobic Respiration is employed by some bacteria like Shewanella when oxygen is absent. Lactic Acid Fermentation is used by muscle cells in humans and Lactobacillus in yogurt production, while Alcoholic Fermentation is seen in yeast during beer brewing and bread making.
Explanation:Aerobic Respiration occurs in many organisms, including humans. In this process, cells use oxygen to convert glucose into ATP, carbon dioxide, and water. An example of an organism that uses aerobic respiration is the common yeast species Saccharomyces cerevisiae under oxygen-rich conditions.
Anaerobic Respiration is used by certain bacteria that can make ATP without oxygen. These include some species of bacteria in the genus Shewanella, which can utilize other inorganic compounds as final electron acceptors when oxygen is not available.
Lactic Acid Fermentation occurs in muscle cells of animals, including humans, when oxygen is scarce, such as during intense exercise. In this process, glucose is converted into ATP and lactic acid. Lactic acid bacteria, like Lactobacillus, also use this process to ferment milk into yogurt, for example.
Alcoholic Fermentation is used by yeast and some types of bacteria to convert glucose into ATP, alcohol, and carbon dioxide in the absence of oxygen. An example of an organism that undergoes alcoholic fermentation is Saccharomyces cerevisiae when oxygen is not present, such as during the brewing of beer and the making of bread.
Final answer:
Aerobic respiration occurs in humans, while yeast undergoes anaerobic respiration, specifically alcoholic fermentation. Bacteria in yogurt use lactic acid fermentation, and yeast also undergoes alcoholic fermentation.
Explanation:
Aerobic Respiration:
An organism that uses aerobic respiration is humans. During aerobic respiration, glucose is broken down in the presence of oxygen to produce carbon dioxide, water, and energy in the form of ATP. This process is more efficient than anaerobic respiration and allows for the production of a larger amount of ATP for cellular activities.
Anaerobic Respiration:
An example of an organism that uses anaerobic respiration is yeast. During anaerobic respiration, glucose is broken down in the absence of oxygen to produce carbon dioxide, alcohol or lactic acid, and a small amount of ATP. Yeast undergoes alcoholic fermentation, which produces ethanol as a waste product.
Lactic Acid Fermentation:
An example of an organism that uses lactic acid fermentation is bacteria found in yogurt. During lactic acid fermentation, glucose is converted into lactic acid and a small amount of ATP is produced. This process is utilized by bacteria to produce yogurt and other fermented dairy products.
Alcoholic Fermentation:
As mentioned earlier, yeast undergoes alcoholic fermentation. Yeast converts glucose into ethanol and carbon dioxide during alcoholic fermentation. This process is used in the production of alcoholic beverages such as beer and wine.
Catharine beecher believe that woman should spend their energy
Catharine Beecher believed that women should spend their energy on education and nurturing children to restore moral values. She emphasized the importance of women's roles in domestic duties and as educators. Beecher advocated for the empowerment of women through education and self-improvement.
What physical features most influence a marine biome?
Final answer:
Marine biomes are influenced by sunlight, temperature, water movement, and salt content, with distinct zones based on depth and distance from land like coral reefs and estuaries, each supporting specialized organisms.
Explanation:
The physical features that most influence a marine biome include sunlight, temperature, water movement, and salt content. Sunlight is vital for the process of photosynthesis, which sustains many marine organisms. It penetrates the water to varying depths, creating distinct zones each with their own adapted species. Temperature plays a pivotal role as well due to its effect on water density and stratification, influencing organisms' distribution and behavior. Water movement, including currents, significantly affects marine ecosystems by shaping physical conditions and distributing nutrients. Finally, the salt content of marine biomes is crucial, as it requires organisms to have specialized adaptations for osmoregulation.
Ocean zones can be divided based on depth and distance from land, and contain a diverse range of species adapted to these abiotic factors. Coral reefs and estuaries are other types of marine biomes with unique ecological characteristics. Coral reefs are biodiverse and contain organisms like corals which house algae for photosynthesis and nutrient provision, while estuaries provide a critical habitat for many juvenile marine species.
How might upward growth of cities be a better choice than outward growth?
a.
Upward growth affects less land area than outward growth.
b.
Upward growth helps moderate pollution problems.
c.
Upward growth has no limitations.
d.
Upward growth has no environmental impact.
Answer:
The answer is A.) Upward growth affects less land area than outward growth.
Explanation:
Using the variable v,d and t, write the correct formula for T.
__________ energy is the energy that it takes to remove an electron from its shell.
Quantum
Ionization
Electron
Polar
To assume it has to be Quantum
The Periodic Table is organized so that atoms of elements with the same number of valence electrons are in __________.
columns
diagonals
rows
cells
Answer:1. Ionization
2. columns
Explanation:
1. Ionization energy is the energy required to remove the outermost electron from an isolated gaseous atom.
In a period or row, the ionization energy increases as we move down as the size decreases and thus the valence shell moves closer to the nucleus and thus is difficult to remove.
In a group or column, the ionization energy decreases as we move down as the size increases and thus the valence shell moves farther from nucleus and thus is easier to remove.
2. The elements are arrange in order of increasing atomic numbers in which elements with similar properties are present at regular intervals.
The rows of the periodic table are called as rows and the vertical columns are called as groups.
The elements in the same column or group have similar number of valence electrons as thus they have similar chemical reactivity.
What will happen to the amount of prairie ecosystem if global warming and increased precipitation occur in that area?
If the temperature rise and the precipitation the vast grasslands called prairies will start to lose their initial appearance and characteristics and because of the higher temperature, humidity and rainfall trees will start to grow as well as bushes. Over time (depending on how quickly the change will appear) the prairie will be replaced by vast rainforests and the prairie ecosystem will be totally replaced by a tropical rainforest ecosystem similar to the southern half of central america.
Which of a cell's organelles releases energy stored in food?
Answer: mitochondria
Ozone forms near the ground when pollutants from cars are exposed to UV radiation and oxygen. This is an example of a _______.
a.
primary pollutant
b.
secondary pollutant
c.
tertiary pollutant
d.
none of the above
The formation of ozone near the ground due to the reaction of car pollutants with UV radiation and oxygen is an example of a secondary pollutant.
Ozone forms near the ground when pollutants from cars are exposed to UV radiation and oxygen. This is an example of a secondary pollutant. Secondary pollutants like ground-level ozone are not emitted directly into the air but are created by chemical reactions between primary pollutants and other atmospheric components. In the case of ozone, it forms when nitrogen oxides (NOx) and volatile organic compounds (VOCs) emitted by cars, industrial facilities, and other sources react in the presence of sunlight.
if the surface area of a cell that is shaped like a cube increases 100 times, its volume increases about
Answer:
D. 1000 Times.
Explanation:
Did the check.
explain why animals have specialized excretory organs but plants do not. ...?
Answer:
animals are active than plants
Explanation:
i hope my answer has helped
When clouds trap heat emitted from Earth's surface, they are acting as
a. Heat shield
b. Magnet
c. Greenhouse gas
d. Satellite
When clouds trap heat emitted from Earth's surface, they are acting as a Greenhouse gas.
What is a greenhouse gas?Greenhouse gases (also known as GHGs) are gases in the earth's atmosphere that trap heat. During the day, the sun shines through the atmosphere, warming the earth's surface. At night, the earth's surface cools, releasing heat back into the air. But some of the heat is trapped by the greenhouse gases in the atmosphere.
Why is it called greenhouse gases?A greenhouse gas is called that because it absorbs infrared radiation from the Sun in the form of heat, which is circulated in the atmosphere and eventually lost to space.
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How does taxonomy help us understand relationships among organisms on earth? What kinds of evidence do scientists use in taxonomy?
Final answer:
Taxonomy, involving the classification and naming of organisms, utilizes morphologic and genetic evidence to elucidate the evolutionary relationships among species. Systematics and taxonomy aim to map the evolutionary pathways of life on Earth, represented in phylogenetic trees, underscoring shared origins. The taxonomic system, notably binomial nomenclature and the division into three domains, facilitates the study of life's vast diversity.
Explanation:
Understanding Taxonomy and Its Importance
Taxonomy is the science of classifying organisms into a systematically organized framework based on their shared characteristics and evolutionary relationships. This classification is vital as it helps scientists to organize the vast diversity of life on Earth, making it easier to study and understand how organisms are related to each other. The taxonomic classification system comprises different levels, including domain, kingdom, phylum, class, order, family, genus, and species.
Key Components and Evidence in Taxonomy
The two main types of evidence used in taxonomy and determining evolutionary relationships are morphologic evidence (related to the form and function of organisms) and genetic evidence. Together, these types of evidence enable scientists to construct phylogenetic trees, which illustrate the evolutionary pathways of life on Earth. The concept of binomial nomenclature, introduced by Carl Linnaeus, is also crucial in taxonomy, providing a standardized method for naming organisms with a two-part Latin name that signifies their genus and species.
Systematics and taxonomy are deeply intertwined with phylogeny, as they all aim to understand the evolutionary relationships among organisms. This understanding is further visualized through phylogenetic trees, which not only display these relationships but also hint at the evolutionary history and common ancestors of different organisms. The tree of life concept, with a single common ancestor branching out into the diversity seen today, emphasizes the shared origins of all life forms.
Importance of the Domains of Life
The classification into three domains of life—Bacteria, Archaea, and Eukarya—underscores the fundamental distinctions at the highest level of organization. This division reflects key evolutionary milestones and relationships among all living organisms.
Who developed the first correct model of dna?
Which statement is correct?
The number of electrons of a neutral atom always equals the number of protons.
The number of neutrons always equals the number of protons.
The number of neutrons always equals the number of electrons.
Atomic weight is identical to atomic mass.
Answer:
Option (1).
Explanation:
Atom may be defined as the small part of an element that can be further divisible into the further particles. The three sub atomic particles are electron, proton and neutron.
Electrons revolve around the nucleus and protons, neutrons are present inside the nucleus. The electrons and protons number are equal in the neutral atom. The equal number of electron and proton makes the atom electrically neutral as whole.
Thus, the correct answer is option (1).
Which of the following statements is true? The buildup of carbon dioxide in the atmosphere causes the greenhouse effect. An increase in pressure causes an increase in reaction rate. The formation of gas bubbles is an indication of a chemical change. all of the above
D- All of the above I think