The correct answer to this open question is the following.
The percentage of garbage that can be burned as fuel is about 66%.
An average citizen in the United States trows almost five pounds of trash on a daily basis. Organic trash contains energy. That is why trash is burned so that energy can be used in different forms, for instance, to produce electricity. Companies that burn trash to create energy can produce electricity to serve 2.5 million people.
balloon to various depths and observed the result. Which one of the following best
describes what happed to the balloon as it went deeper?
(a) The balloon got larger because the pressure of the water around it increased
compared with the pressure inside the balloon.
(b) The balloon got larger because the pressure of the water around it decreased
compared with the pressure inside the balloon.
(c) The balloon got smaller because the pressure of the water around it increased
compared with the pressure inside the balloon.
(d) The balloon got smaller because the pressure of the water around it decreased
compared with the pressure inside the balloon.
The balloon got smaller because the pressure of the water around it increased compared with the pressure inside the balloon. Therefore, the correct answer is (C).
As the student submerged the balloon to various depths, the pressure of the water around the balloon increased, which caused the balloon to get smaller. This is because the pressure inside the balloon remained constant, while the pressure outside increased.
The helium inside the balloon would have been compressed by the increased pressure of the water, causing the balloon to decrease in size. This phenomenon can be explained by Boyle's law, which states that the volume of a gas is inversely proportional to the pressure of its surroundings.
Learn more about Boyle's law, here:
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Answer:
The right cerebral hemisphere controls movements on the left side of the body.
a population
biological diversity
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example, what would happen if a person sweats
when temperature decreases?
Answer:
Most general problem: Homeostasis would be thrown off.
Explanation:
When a person sweats, they are trying to cool themselves off from a high internal body temperature, sweating when cold can make the person colder and make it even harder for that person to maintain homeostasis without throwing multiple body functions out of sync.
However there is a condition that is associated with Hyperhyrosis (increased sweating) that makes a person sweat when cold: cold sweats, however this is also concerning when a person is cold. But as long as a person has no other symptoms, it is no need for concern.
Other than that, organs can take damage. It would be like the skin going into goose bumps when a person is getting heat stroke, the organs are too hot as is the skin, but it is unable to let any response out to maintain homeostasis.
Cold sweats are also triggered by a fight or flight responce. So the main take away is that the body would not know how to react because Homeostasis has been thrown off.
Positive feedback amplifies changes, so if your body used this to regulate temperature, you would sweat when cold, further lowering your body temperature. This could lead to dangerous situations, such as hypothermia. Normally, the body uses negative feedback to regulate temperature.
If the body used positive feedback to regulate body temperature, it would disrupt the body's homeostasis. Positive feedback amplifies changes rather than counteracting them like negative feedback. So, if you began to sweat when your body temperature decreased, you would lose even more body heat, causing your body temperature to drop further. This could lead to a dangerous situation, such as hypothermia, where your body's temperature falls too low to perform physiological functions correctly.
Normally, body temperature is regulated by negative feedback. When the body gets too warm, it sweats to cool down, and when the body gets too cold, it shivers to produce heat. Thus, flipping this balance would disrupt the body's ability to maintain a stable internal environment.
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