The similarity in appearance between the Moon and the stone sphere is due to the spherical shape of both objects, causing a uniform and diffused reflection of light.
The similarity in appearance between the Moon and the stone sphere in the image can be attributed to the way light interacts with spherical objects. This phenomenon is primarily due to the principles of reflection and the geometry of spherical shapes.
Light Reflection: Both the Moon and the stone sphere reflect sunlight. The Moon is illuminated by the Sun's rays, and the stone sphere, although much smaller in scale, reflects ambient light or artificial light sources.
Spherical Shape: Spherical objects have a unique way of reflecting light. When light falls on a spherical surface, it is refracted, scattered, and reflected in various directions. This scattering of light creates a uniform and diffused illumination on the entire surface of the sphere, resulting in a soft and evenly distributed glow.
Absence of Sharp Edges: Spheres lack sharp edges and corners that can create shadows or abrupt changes in light intensity. This absence of shadows and the uniform distribution of light contribute to the similar appearance of the Moon and the stone sphere in terms of their illuminated surfaces.
In summary, the shared appearance can be explained by the spherical shape of both objects, which results in a gentle and uniform distribution of reflected light, creating a soft and luminous appearance in the image.
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Answer:
I think I forgot
Explanation:
B. transporting oxygen across the cell membrane.
C. breaking down unneeded molecules.
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D. taking in wastes from other cells
The correct answer is D. taking in wastes from other cells.
The correct answer is D. taking in wastes from other cells.
Homeostasis is the process by which cells, organisms, or systems maintain stable internal conditions. To achieve and maintain homeostasis, cells perform various processes such as making new molecules for growth, transporting substances across cell membranes, and breaking down unneeded molecules. However, taking in wastes from other cells does not contribute to maintaining homeostasis and is not a recognized process for this purpose.
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Answer:
b
Explanation:
ba
Answer:
False
Explanation:
Sex linked Traits can only ever be carried on the X chromosome that is why they are more common in males through a dominant Gene.
Answer:
The answer is true.
Explanation:
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a. decreased portions sizes in restaurarts and movie theaters.
b. increased use of personal vehicles, telephones, and computers.
c. increased number of meals eaten outside the home
Answer:
c. increased number of meals eaten outside the home
Explanation:
Environment is the surrounding of living organism, where he gets to survive by meeting its needs.
Environmental factors are factors in the environment that are associated to growth and development example is temperature.
The environment an individual stays have a great influence on the physical expression and character of the individual.
For a fat person the environment had played out his role which should be controlled to achieve a significant weight loss. Increasing number of meals eaten outside the house is one major factor that would not allow such individual to loose weight. Intake of food should be greatly controlled and watched to achieve weight loss.
b. The nose
c. The pharynx
Answer:
The correct answer is A. The larynx moves up against epiglottis when food is swallowed to prevent passage of food into it.
Explanation:
The epiglottis is a moist, cartilaginous structure that is part of the cartilaginous skeleton of the larynx. It also marks the boundary between the oropharynx and the laryngopharynx. The epiglottis obstructs the passage of the bolus at the time of swallowing preventing it from going to the respiratory system.
Larynx closure occurs when the vestibular and vocal folds approach the midline during swallowing. Occasionally, when you eat very fast, solid foods or liquids can enter the larynx.
Answer:
ASSASSIN BUG
sample population, given the
allele frequencies?
To find the number of heterozygotes in a sample population, we need to know the allele frequencies and the total number of individuals in the population. The formula used to calculate the expected number of heterozygotes in a population is based on the Hardy-Weinberg equilibrium principle.
The Hardy-Weinberg equation is given as:
p² + 2pq + q² = 1
Where:
p = frequency of one (dominant) allele
q = frequency of the other allele (recessive) allele
p² = expected frequency of homozygous dominant individuals
2pq = expected frequency of heterozygous individuals
q² = expected frequency of homozygous recessive individuals
To find the number of heterozygotes, we can multiply the expected frequency of heterozygotes (2pq) by the total population size. This will give us an estimate of the number of individuals in the population who are heterozygous for the specific gene of interest.
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Explanation:
The frequency of heterozygous individuals. Answer: The frequency of heterozygous individuals is equal to 2pq. In this case, 2pq equals 0.32, which means that the frequency of individuals heterozygous for this gene is equal to 32% (i.e. 2 (0.8)(0.2) = 0.32