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A plant cell contains a large, singular vacuole that is used for storage and maintaining the shape of the cell. In contrast, animal cells have many, smaller vacuoles. Plant cells have a cell wall, as well as a cell membrane. ... Animal cells simply have a cell membrane, but no cell wall.
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Discoveries that are made through cell technology sometimes result in new regulations.
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A larger number of synaptic vesicles releasing neurotransmitter at the neuromuscular junction compared with CNS synapses
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The image represents a compound.
A compound is a substance made up of two or more different elements chemically combined. In the image, we can see that there are multiple elements present, specifically carbon (C), hydrogen (H), and oxygen (O). These elements are chemically bonded together to form a molecule of a compound called glucose (C6H12O6).
To determine if an image represents an element, compound, or mixture, we need to analyze the composition of the substances shown. In this case, since we have multiple elements combined in a fixed ratio (6 carbon atoms, 12 hydrogen atoms, and 6 oxygen atoms), it indicates that we are dealing with a compound.
In contrast, an element consists of only one type of atom, while a mixture is a combination of two or more substances that are not chemically combined and can be separated physically.
Therefore, based on the presence of multiple elements chemically combined, we can conclude that the image represents a compound, specifically glucose (C6H12O6).
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n/a
where is the image? cant tell you what the answer is
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The answer is B: Haplorhines have better color vision.
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Haplorhines are known as dry-nosed while Strepsirhines are known as wet-nosed. Haplorhines and Strepsirhines are two different kind of primates but they have different characteristics such as variation of the brain size, because Haplorhines have bigger brain than Strepsirhines, Haplorhines do not have the enzyme in charge of producing Vitamin C while Strepsirhines have it. Haplorhines have a more developed vision than Strepsirhines. In this sense, Haplorhines possess a layer called tapetum lacidum which allows them to see at night when the light is low, while Haplorhines do not possess tapetum lacidum but, they have something called fovea, which help the to see during the day and have a vision color which is not a feature of Strepsirhines.
Haplorhines and Strepsirrhines are two main classifications of the Order Primates. Strepsirrhines are the wet-nosed primates, primarily nocturnal with larger olfactory centers. Haplorhines, dry-nosed primates, are often diurnal, rely more on vision and need vitamin C from their diet.
The Order Primates is segregated into two groups: Strepsirrhini (“turned-nosed”) and Haplorhini (“simple-nosed”) primates.
Strepsirrhines, also known as the wet-nosed primates, include prosimians like bush babies and pottos of Africa, the lemurs of Madagascar, and the lorises of Southeast Asia. These primates are primarily nocturnal, have larger olfactory centers in the brain, and tend to be smaller in size with smaller brains compared to anthropoids.
On the other hand, Haplorhines, or dry-nosed primates, include tarsiers and simians (New World monkeys, Old World monkeys, apes, and humans). Typically, Haplorhines are diurnal, rely more on their vision, and lack enzymes to produce vitamin C, thus, needing to get it from their food. Distinctive anatomical traits of strepsirrhines include a grooming claw on their second toe and protruding incisors forming a toothcomb. Haplorhines further diversify into Simiiformes and Tarsiiformes with distinctions being narrow nostrils, non-existent or functional tails, and their habitat.
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The immediate products of one turn of the Calvin cycle are 2 glyceraldehyde-3-phosphate