When you consume extra calories your body doesn't need, the energy can be converted to fat and stored in the adipose cells; as a result, you become fatter because your adipose cells increase in size and number.
Adipocytes, sometimes referred to as lipocytes and fat cells, are the cells that make up the majority of adipose tissue and are adept at storing energy in the form of fat. Adipocytes are produced by the process of adipogenesis from mesenchymal stem cells.
Adipose cells, also known as fat cells, are responsible for storing excess energy in the form of fat. When you consume more calories than your body needs, the extra energy is converted to fat and stored in these cells.
As a result, the adipose cells increase in size and number, leading to an increase in body fat and weight gain. It is important to maintain a balanced diet and engage in regular physical activity to prevent the accumulation of excess fat in the body.
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1. CNS stands for ____________________________________.
It includes the brain and ______________________________.
2. PNS stands for _________________________________.
It includes: ______________________________________.
3. How do the CNS and PNS work together?
If focusing on the brain (part of the CNS), please complete the following. Remember that these are general areas;
more detail could be explored about all of these regions!
9. The term brainstem includes the midbrain plus which two structures from the hindbrain?
____________________________________________ and ____________________________________________
4. What are some functions of the
midbrain?
7. The hindbrain includes the medulla,
____________________, and cerebellum.
5. The forebrain includes the
cerebrum. What are some functions of
the cerebrum?
6. The forebrain also includes the
thalamus and hypothalamus. What are
some functions of these structures?
8. What are some functions of the structures listed above?
Amoeba Sisters Video Recap: Nervous System
10. The PNS can be divided into the autonomic nervous system (ANS) and somatic
nervous system (SNS). How do these cartoons at right illustrate some differences between
their functions?
The ANS can be further divided. You can look at the very first question again to see the
division flow chart!
11. Cartoon 1 at right is representing functions involved in the
________________________________________________ system.
12. Cartoon 2 at right is representing functions involved in the
________________________________________________ system.
13. For this image featuring a neuron, please label the:
axon, axon terminals, cell body, dendrites, and synapse.
14. Many neurons can be myelinated. What does that
mean and what is its significance?
15. Neurons can receive a signal in the ______________
and carry it down the ____________________________.
16. The action potential allows neurons to carry a signal
quickly. In 2-4 sentences, briefly summarize what occurs
in an action potential.
17. When an action potential reaches the end of the axon, it can signal synaptic vesicles to
release __________________________________, which can travel the between neurons
and signal an action potential in the neighboring neuron.
18. Neurons aren’t the only cells heavily involved in the nervous system! Glial cells (or glia)
have many important roles in the nervous system. What are at least 3 functions of glia? please number and each one
1. CNS stands for central nervous system. It includes the brain and spinal cord.
What is nervous system?
The nervous system is the body's communication network, made up of the brain, spinal cord, and nerves. It allows the body to receive and process information from the environment, control movements and bodily functions, and coordinate responses to stimuli.
Remainings:
2. PNS stands for peripheral nervous system. It includes nerves outside the brain and spinal cord, such as sensory neurons and motor neurons.
3. The CNS and PNS work together to coordinate and regulate the body's functions. The CNS processes information from the senses and sends out instructions to the PNS, which carries out the instructions.
4. The midbrain is responsible for controlling some motor functions, such as eye movement, and for processing visual and auditory information.
5. The cerebrum is responsible for conscious thought, memory, and processing sensory information.
6. The thalamus is responsible for relaying sensory information to the cerebrum, while the hypothalamus is responsible for regulating many bodily functions, including body temperature, hunger, and thirst.
7. The hindbrain includes the medulla, pons, and cerebellum. The medulla controls many autonomic functions, such as breathing and heart rate, while the cerebellum is responsible for coordinating movement and maintaining balance.
8. Functions of these structures include regulating bodily functions, processing sensory information, and coordinating movement.
9. The term brainstem includes the midbrain, pons, and medulla.
10. The SNS controls voluntary movements, while the ANS controls involuntary functions such as digestion and breathing.
11. Cartoon 1 is representing functions involved in the somatic nervous system.
12. Cartoon 2 is representing functions involved in the autonomic nervous system.
13. Axon, axon terminals, cell body, dendrites, and synapse.
14. Myelinated neurons have a fatty substance called myelin around their axons, which helps speed up the transmission of signals.
15. Neurons can receive a signal in the dendrites and carry it down the axon.
16. An action potential is a rapid change in the voltage of the cell membrane of a neuron, caused by the influx of positively charged ions into the cell. This allows neurons to carry signals quickly and efficiently.
17. When an action potential reaches the end of the axon, it can signal synaptic vesicles to release neurotransmitters, which can travel between neurons and signal an action potential in the neighboring neuron.
18. Functions of glia include supporting and protecting neurons, maintaining the chemical balance in the brain, and helping to repair damage to the nervous system.
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PLease Help
The pituitary gland in a male child is malfunctioning. It signals the reproductive organs to secrete hormones too early. Based on your knowledge of the endocrine system and hormones, explain the likely impact of this on the male child.
This influence might be early puberty some examples are early growth such as height and his body parts, he would probably get really easily , and the numbers/measure of his sperm would increase.
What pituitary hormone is necessary for the growth of the male and female reproductive systems?The hypothalamus creates a number of neuroendocrine substances, or hormones. Gonadotropin-releasing hormone, or GnRH for short, is the most crucial hormone for reproduction. It is rhythmically released every 60 to 120 minutes.
What hormones that are directed at the reproductive organs are secreted by the pituitary gland?The gonadotropins, luteinizing hormone and follicle-stimulating hormone, increase the production of sperm, eggs, and hormones in the body.
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What distinguishes a trophic cascade from more common fluctuations in predator and prey populations? A. Trophic cascades are always caused by apex predators. B. Trophic cascades result in the extinction of a species. C. Trophic cascades require human intervention to resolve. D. Trophic cascades involve several levels of the food pyramid.
What is the optimum pH for stomach protease?
A pH2
B pH7
C pH9
D pH12
it comes down to electrons & chemical bonding of atoms
ph levels means a chemical is an acid base
pH less than 7 is acidic over 7 is a base.
forsyth.org
pH stands for "potential of hydrogen".
The optimum pH for stomach protease is A) pH2. The stomach produces hydrochloric acid (HCl), which helps to maintain an acidic environment in the stomach with a pH range between 1.5 to 3.5. This acidic environment is necessary for the activation of pepsinogen to pepsin, which is a type of protease enzyme that breaks down proteins in the stomach. The optimal pH for pepsin activity is in the range of pH 1.5 to 2.5.
chatgpt
pH measures how acidic or basic something is.
Hydrogen ions (H+) are involved in determining acidity or basicity.
A solution with a higher concentration of hydrogen ions is more acidic, meaning it has a lower pH value.
A solution with a lower concentration of hydrogen ions is more basic or alkaline, meaning it has a higher pH value.
The pH scale measures the concentration of hydrogen ions in a solution and ranges from 0 to 14.
A pH of 7 is neutral, meaning it has an equal concentration of hydrogen ions and hydroxide ions (OH-).
In summary, hydrogen ions play a crucial role in determining the acidity or basicity of a solution in pH. The concentration of hydrogen ions in a solution affects its pH value, and the pH scale measures this concentration to indicate the acidity or basicity of a solution.
chatgpt
1. How do the movements of sodium and potassium change during the action potential compared to during the resting membrane potential phase? 2. After you stimulate the neuron, why do you have to wait before stimulating it again? 3. Fill in the table below comparing the concentration of sodium and potassium ions inside and outside the cell at the end of the action potential (before it starts to level back out)
The movements of sodium and potassium ions are in opposite directions during the action potential compared to during the resting membrane potential phase.
What is the role of sodium and potassium ions during an action potential?During the resting membrane potential, the concentration of sodium ions (Na+) is higher outside the neuron and the concentration of potassium ions (K+) is higher inside the neuron. During the action potential, there is a rapid influx of sodium ions into the neuron, which depolarizes the membrane and triggers the action potential. This is followed by an efflux of potassium ions out of the neuron, which repolarizes the membrane and brings the membrane potential back to its resting state.
After stimulating a neuron, there is a brief period of time known as the refractory period during which the neuron cannot be stimulated again. This is because the membrane potential is temporarily hyperpolarized, making it more difficult to depolarize the neuron and trigger another action potential.
At the end of the action potential, before the membrane potential begins to level back out, the concentration of sodium ions is higher inside the neuron and the concentration of potassium ions is higher outside the neuron. However, the sodium-potassium pump quickly restores the normal concentration gradient by actively pumping sodium ions out of the neuron and potassium ions back into the neuron.
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Scientists have been studying the size of three populations in Peru. In this ecosystem, pumas (large wild cats) eat deer, and deer eat grass. The data showed that all three populations were stable. Then the puma population increased suddenly. What will most likely happen to the size of the deer population as a result?
Answer:
hen the puma population in an ecosystem increases suddenly, it is likely to have an impact on the size of the deer population.
Here's what might happen to the deer population as a result:
1. Increased predation: With more pumas in the ecosystem, there will be a higher number of predators hunting deer. This means that the pumas will be consuming more deer than before, leading to a decrease in the size of the deer population.
2. Competition for resources: As the puma population grows, there might be increased competition between pumas and deer for resources such as food and shelter. This competition could further impact the deer population by limiting their access to essential resources and potentially reducing their population size.
3. Altered behavior of deer: Due to the increased presence of pumas, deer may alter their behavior to avoid predation. They might change their feeding patterns, become more vigilant, or avoid certain areas. These behavioral changes could have indirect effects on the deer population, possibly leading to changes in their distribution and population size.
4. Cascade effects: The changes in the deer population can also have indirect effects on other organisms in the ecosystem. For example, a decrease in the deer population could lead to an increase in the availability of grass, which may then affect other herbivores or plants in the ecosystem. These cascade effects can further influence the overall dynamics of the ecosystem.
It's important to note that while these are potential outcomes, the actual impact on the deer population would depend on various factors such as the rate of puma population increase, availability of alternative prey, and the resilience of the deer population to predation pressure. Studying such interactions in ecosystems helps scientists understand the complex dynamics that shape populations and maintain ecological Balance
the carbon cycle is closely related to the cycling of oxygen throughout the environment. which process is the carbon cycle tied to? responses condensation condensation residence residence the rock cycle the rock cycle photosynthesis
The process that the carbon cycle is tied to is: photosynthesis.
Photosynthesis is a process that is responsible for converting carbon dioxide (CO2) and water (H2O) into organic compounds and molecular oxygen (O2). Chloroplasts, which are organelles found in plant cells, are responsible for photosynthesis.
What is the carbon cycle?
The carbon cycle is the natural process through which carbon is exchanged between the atmosphere, water bodies, plants, and animals. Carbon enters the atmosphere through a range of natural processes, including volcanic eruptions, respiration, and decomposition of organic matter. The carbon cycle is closely related to the cycling of oxygen throughout the environment. However, the process that the carbon cycle is tied to is photosynthesis.
In summary, the carbon cycle is a natural process through which carbon is exchanged between the atmosphere, water bodies, plants, and animals, while photosynthesis is a process responsible for converting carbon dioxide (CO2) and water (H2O) into organic compounds and molecular oxygen (O2).
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On which geographical boundary is Sri Lanka located?
Answer:
Sri Lanka has sea borders with India to the northwest and the Maldives to the southwest. Until 1972, the international community called this country Ceylon (Indonesian: Sailan).
Explanation:
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