Answer:
Sedimentary layers
Explanation:
What uses the age of layers to figure out how old
something is?
O A. Precambrian dating
O B. Radiometric dating
C. Relative dating
O D. Mesozoic dating
Answer:
Relative dating
Explanation:
Relative dating can determine the relative age of something.
Give a correct biological term for each of the following
organisms made up of one cell only
help pls ( life science )
Answer:
bacteria, protists, and yeast.
Explanation:
what is the picture showing ?
Answer:
a mixture of elements
Explanation:
hope that helped
______________________ are segments of DNA found in chromosomes that give instructions for producing a certain characteristics
Answer:
Genes
Explanation:
Is this right if not please help
Answer:
You are right!!!!!!!!!!
Why are plants like grasse able to
reproduce more quickly than others?
A.) The pollen is able to spread with the wind farther and faster.
B.) The seeds are able to fertilize and grow in the soil at a faster rate.
C.) The root may grow horizontal rhizomes that make new shoots.
Answer:
C.) The root may grow horizontal rhizomes that make new shoots.
Explanation:
Plants like grasses able to reproduce more quickly than others because their roots grow horizontal rhizomes into a new shoots. These grasses spreads in the soil due to movement of rhizomes horizontally and grows its shoot with this movement. This spreading helps the grasses to make carpets in the grounds and has the ability to grow faster than other plants so we can say that growth of horizontal rhizomes is responsible for quick growth of grasses.
If the DNA code is CCG-ATT. What does the mRNA will code for? *
Is convection related to deep ocean currents and thermohaline circulation?
-No - convection is not used to describe or explain ocean currents.
- Yes - convection explains why the colder and denser waters sink and why the warmer, less dense waters rise.
-Yes - convection causes cold water to rise to the surface.
-No - convection is not applicable on large scales.
Answer:B
Explanation:
Yes - convection explains why the colder and denser waters sink and why the warmer, less dense waters rise.
Answer:
Yes - convection explains why the colder and denser waters sink and why the warmer, less dense waters rise.
Explanation:
took the thingy
5. When is extinction of a species most likely to occur?
A)when environmental conditions remain the same and the proportion of individuals within the species that lack adaptive traits increases
B)when environmental conditions change and the members of the species lack adaptive traits to survive and reproduce
C)when environmental conditions change and the adaptive traits of the species favor the survival and reproduction of some of its members
D)when environmental conditions remain the same and the proportion of individuals within the species that possess adaptive traits increases
Answer:
Extinction occurs when species are diminished because of environmental forces (habitat fragmentation, global change, natural disaster, overexploitation of species for human use) or because of evolutionary changes in their members (genetic inbreeding, poor reproduction, decline in population numbers).
The extinction of a species is most likely to occur when environmental conditions change and the members of the species lack adaptive traits to survive and reproduce.
What do you mean by Species?Species may be defined as a group of organisms that can reproduce naturally with one another and create fertile offspring.
If the members of species do not have adaptive traits to survive and reproduce, they will definitely become extinct in near future.
This is because the relative fitness is directly related to the appearance or existence of particular species in the habitat.
Therefore, the extinction of a species is most likely to occur when environmental conditions change and the members of the species lack adaptive traits to survive and reproduce.
To learn more about Species extinction, refer to the link:
https://brainly.com/question/1048615
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Explain the process of photosynthesis in a plant in detail.
Answer:
Photosynthesis is the process through which plants convert light energy from the sun to chemical energy. The chemical energy is then stored as sugar. During the process of photosynthesis, plants capture light energy and use it to convert water, carbon dioxide, and minerals into oxygen (released into the air) and glucose (stored in the plant and used as food).
Explanation:
The plant takes in carbon dioxide in the atmosphere through the stomata on its leaves. It is worth noting that there are some stomata on the stems as well.
Water gets into the plant mainly through the roots and finds its way to the leaves, where photosynthesis occurs. Plant roots are specially designed to draw water from the ground and transport it to the plant leaves through the stem.
Chlorophyll, the green coloring matter of the leaf, traps the energy from sunlight as it shines on the leaf. It is worth noting that it is chlorophyll that gives the leaf its green color.
The solar energy is used to break water down into hydrogen and oxygen. Then hydrogen is combined with carbon dioxide to make sugar, which is food for the plant. Oxygen is released as a byproduct through the stomata.
Answer:
The roots absorb water and nutrients. Water is carried to the leaf by the xylem in the stem. Carbon dioxide enters the leaf through the stomata. Energy from the sun is captured by chlorophyll in the chloroplasts. The process begins once these three reactants are present. Sunlight provides energy for a series of chemical reactions. Molecules break apart and join with other molecules to form glucose, which is a sugar or food for the plant, and oxygen, which is released into the air.
Explanation:
Sample Response on edge
The original bacteria kingdom was divided into two separate kingdoms based on analysis of their (fill in the blank) RNA sequences.
They are divided into two separate kingdoms based on analysis of their
r RNA sequence.
Woese and his colleagues suggested that the original bacteria kingdom should be divided into two new kingdoms, called Eubacteria and Archeabacteria.What is archea bacteria?Archea bacteria are a group of microorganisms considered to be an ancient form of life It is evolved separately from the bacteria and blue-green algae, and they are sometimes classified as a kingdom.To know more about archea here
https://brainly.com/question/13310069
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Students are provided with a choice of two solutions. Each one is used to test for
the presence of a different chemical.
99
Solution
Tests for the presence of
Fehling's solution
Sugar
Lime water
Carbon dioxide
How could the students use one of these solutions to gather evidence for the
action of photosynthesis?
Pump the air from a closed container containing a plant through a sample of lime water.
O Grind up all parts of a plant, expose them to heat, collect the gas, and use lime water to test it
o Use Fehling's solution with the roots of several different species of plants, after boiling them for several minutes.
Use Fehling's solution on plant leaves exposed to light and on plant leaves covered in aluminum foil for a week.
What do you mean by human made resources ?
Answer:
Human beings change resources in two new form like people use natural resources to make buildings, bridges ,machinery and vehicles with the help of technology such resources are called human-made resources. ... Likewise, technology is also a man-made resource. Man-made resources are mostly renewable.
Human made resources are those resources that are created by humans, as opposed to being found in nature. This includes both physical resources like buildings, machines, and tools, as well as intangible resources like intellectual property, knowledge, and know-how. Human made resources are a key factor in economic development and prosperity, and are essential for businesses and organizations of all sizes.
Hope this helps :)
How does burrowing benefit toads?
Answer:
Burrows provide shelter from predators and extreme temperatures. For these reasons, animals have used burrowing behavior for a very long time. It helps frogs and toads
Explanation:
How would scientists know if population were increasing or decreasing over time
who knows at this point. i dont even know what day it is.
As a general rule elements in group 18 do not form compounds. consider the following section of the periodic table. which of the following explains why elements in group 18 do not readily form compounds
DUE TODAY HELP PLS !
Answer:
I NEED SOME POINTS TO ASK A QUESTION.
Explanation:
PLEASE HELP!!!! This is a situation so major! My life depends on it!!!
Answer:
The lighter moths would be more suitable and the darker moths would eventually die out since they have no camouflage, thus an influx of lighter moths will emerge.
Explanation:
Examples of how species can increase the species chance of survival
Answer: adaptation would help a sped iss survive
Explanation:
what are some of the services that a healthy biodiversity provides for everyone?
Answer:
it gives a greater variety of crops
Most clouds appear here, mainly because 99% of the water vapor in the atmosphere is found in the :
A: mesosphere
B: stratosphere
C: thermosphere
D:troposphere
Evidence supporting biological evolution is found in the fossil record and in
a. Adaptations to changing environments
b. Similar anatomies and embryos
c. Offspring with various traits
d. Layers of sediments
Answer:
similar anatomies and embryo
Explanation:
evidence of evolution include
fossil records
comparative anatomy
Cancer is a disease caused by mutations. Yet in most instances, if a parent tragically dies from cancer, this does not put their child at a greater risk than a person who parents don't develop cancer. How can cancer be caused by mutations and ot be heritable?
a. most cancers arise from mutation in germ line cells
b. mutations that cause cancer occur on specific cells, such as sex cells
c. mutations caused by environmental agents, such as tobacco smoke, occur in somatic cells
d. mutations that cause cancer are specific and cannot be passed on regardless of the type of cell they occur in
Answer:
c. mutations caused by environmental agents, such as tobacco smoke, occur in somatic cells
Explanation:
just because you're parents smoked and got lung cancer doesn't mean you'll get lung cancer. (unless you're breathing the smoke, but that's different from inheriting it.)
5. Endoplasmic reticulum
(1 Point)
O plant
O animal
O both
6. Golgi apparatus or Golgi body
(1 Point)
O plant
O animal
O both
7. Lysosome
(1 Point)
O plant
O animal
O both
8. Mitochondria
(1 Point)
O plant
O anima
O both
Answer:
5) Both
6) Both
7) Animal
8) Both
Which cellular structures would you find in plant cell but not in an animal cell?
Answer: cell wall and lysosomes
Explanation:
Question 2
1 pts
When species have differences in coloration or appearance, we say the species has...?
O Variation
o Competition
Homology
O Heritability
1 pts
Question 3
of competition?
Answer:
it's answer is variation
hehe guess what- I need help
Answer:
a) another living cell
Explanation:
"All living cells arise from pre-existing cells by division."
Answer:
a; another living cell
Explanation:
according to cell theory and a guy named Rudolf Virchow, "all cells must come from pre-existing cells."
that basically mean that the cell in the picture had to have come from a living cell, not energy from the sun, or a multicellular orgasm.
What are the fifteen different structures found within eukaryotic cells?
Answer:
cell membrane, nucleus, nucleolus, nuclear membrane, cytoplasm, endoplasmic reticulum, Golgi apparatus, ribosomes, mitochondria, centrioles, cytoskeleton, vacuoles, and vesicles.
Explanation:
sorry but these are only 13
Which occurs in the integumentary system after a deep injury occurs to the system?
Multiple choice question.
A)
Red blood cells fight off pathogens.
B)
Blood quickly clots to form a scab.
C)
Epidermis cells increase their size.
D)
Dermis cells close the injured vein.
Answer: The correct answer is B
Describe how the regeneration of the anole's tail showed both cell division and cell differentiation.
Please help need answers quick!!!
Answer:
In adult organisms the regenerative capacity of certain organs or tissues can be limited, resulting in an important clinical challenge for physicians and scientists [1-3].
Regeneration involves the capacity for renewal or recomposition of tissues, organs or even organisms, after considerable physical injury or damage, resulting from pathologies, tumors, congenital diseases or traumas, for example. As a consequence of tissue regeneration, both the composition and the tissue properties are restored, and the newly formed tissue is highly similar to the original tissue. The regenerative capacity is directly related to the presence of stem cells or progenitor cells, which are capable of proliferation and differentiation [4,5]. Tissues that maintain a high proliferative capacity, such as the hematopoietic system, have regenerative capacity even in adult organisms [6].
Cell proliferation occurs in repair processes in general, accompanied by intense production of extracellular matrix, with large amounts of collagen, resulting in the formation of fibrous tissue to occupy the injured area. Although there is lesion filling, both the composition and the tissue properties are different from the original tissue, and the tissue organization pattern is not restored, leading to an altered performance of its functions [2]. Skin healing processes with the presence of scars are examples of tissue repair [3].
Besides the natural processes of regeneration and repair, it is possible, through medical intervention, to fill lesions with natural or synthetic materials, aiming at the recovery of the compromised area, and conferring certain properties to the tissue, avoiding, for example, exacerbation of the initial lesion or the evolution of degenerative processes [1,7].
The three approaches can be used in tissue engineering, targeting regenerative medicine, as they allow the recovery of compromised areas in different degrees. However, the primary objective is regeneration, recomposition of the original tissue and resumption of the biomechanical and molecular properties, with the normal performance of their functions [1,7-8].
Tissue regeneration involves cell recruitment, growth, proliferation and differentiation, with the latter representing a crucial stage for the success of regeneration, avoiding the formation of fibrous tissue characteristic of the repair [9-12]. Tissues with greater regenerative capacity, such as the skin and liver, intrinsically present cells able to migrate to occupy the affected region, and the same cells maintain the proliferative capacity, enabling occupation of the lesion [3]. In other tissues the regenerative capacity is even more impaired. In the cartilage, for example, the cells remain embedded in the extracellular matrix, and the absence of blood vessels inhibits the presence of other types of component cell in the tissue; even the cell migration and proliferation processes are compromised. In general, regeneration and repair processes do not occur naturally in these cases, requiring surgical intervention to stimulate the subchondral bone marrow, thus enabling the presence of cells capable of tissue repair in the compromised area [13]. Other scientific techniques and methodologies seek alternatives to enable the processes both of repair and of tissue regeneration [9-12,14-16].
Anyhow the final stage of the abovementioned processes, cell differentiation, is critical. An understanding of the mechanisms that lead to the differentiation process in adult organisms allows the proposition of improvements in existing technologies and of alternatives geared towards the optimization of guided tissue regeneration processes, in regenerative medicine.
list two ways that trees help cities.
Answer:
Trees give off oxygen that we need to breathe. Trees reduce the amount of stormwater runoff, which reduces erosion and pollution in our waterways and may reduce the effects of flooding.
Explanation:
Hope that helps
Answer: They help produce oxygen to reduce pollution
They help against climate change
Explanation: U got this purrrr