Explain one way they are the same and one way they are different.
Carbohydrates and proteins are two types of macromolecules that play critical roles in living organisms.
Carbohydrates are organic molecules made up of carbon, hydrogen, and oxygen atoms. They are primarily used as a source of energy for the body, but they also serve other functions such as structural support, cell signaling, and cell recognition. Some examples of carbohydrates include sugars, starches, and fibers.
Proteins, on the other hand, are organic molecules made up of amino acids. They have a wide range of functions, including structural support, enzyme catalysis, transport, storage, communication, and defense.
One way that carbohydrates and proteins are similar is that they are both macromolecules that are essential to life. They are both made up of smaller building blocks - monomers - that are linked together through chemical bonds to form more complex structures.
One way that carbohydrates and proteins are different is that their functions are distinct. While carbohydrates are primarily used as a source of energy, proteins have a wide range of functions that are critical to the structure and function of the body.
In summary, carbohydrates and proteins are both important macromolecules with distinct functions. Carbohydrates are primarily used as a source of energy, while proteins have a wide range of functions critical to the structure and function of the body. While they share similarities as macromolecules, their functions are distinct and serve different purposes in the body.
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Answer:
Explanation:
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A.) changes in chemical energy converts carbohydrates into smaller molecules
B.) changes in light energy convert chemical energy stored in carbohydrates
C.) changes that convert chemical energy into heat and light
D.) changes in nuclear energy converts hydrogen and oxygen into carbon
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the answer would be C. None of the other answers choices have anything to do with photosynthesis
epithelial
nervous
muscular
Answer:
nervous
Explanation:
The nervous tissue is one of the four basic tissues of the organism, it is formed by two types of cellular elements, it represents the fundamental component of the structures and organs that make up the nervous system. The main function of the nervous tissue is to capture internal and external stimuli and transform them into nerve impulses. All modifications of the external or internal environment and sensory stimuli such as temperature, pressure, light, sounds and taste, among others, are detected, examined and transmitted by nerve cells. On the other hand, the nervous tissue is in charge of coordinating the motor, glandular, and visceral functions of the individual.
Answer:
The right hemisphere controls the left side of the body and our creativity.
Explanation:
The right hemisphere coordinates the left side of the body, and performs tasks that have do with creativity and the arts.
The left side of the brain is responsible for controlling the right side of the body and controls the way we think logically.
The right hemisphere of the brain primarily controls the left side of the body and is often associated with spatial and nonverbal reasoning. It's important to note, however, that the brain functions as a whole unit and most functions are distributed globally around the cerebrum.
The right hemisphere of the brain primarily controls the left side of the body. It plays a significant role in spatial and nonverbal reasoning, arousal, negative emotions, and pitch perception. Language processing, a task typically associated with the left hemisphere, can cross over to the right hemisphere via the corpus callosum, which bridges the two hemispheres together.
While the left hemisphere tends to be dominant in language functions in about 95% of the population, it must be noted that the brain functions as a whole and most of its functions are globally distributed. Misconceptions of people being 'right-brained' or 'left-brained' oversimplify the complex nature of the cerebral hemispheres.
In certain cases of intractable epilepsy, the corpus callosum is surgically severed as a treatment option, resulting in 'split-brain' patients. These patients highlight the roles of the individual hemispheres as we observe their behaviors and abilities post-surgery.
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