A.) The inputs are different than the outputs.
B.) The atoms of hydrogen, oxygen, and carbon are rearranged.
C.) There are equal numbers of atoms on each side of the equation.
D.) The number of molecules is the same on either side of the equation.
There are equal numbers of atoms on each side of the equation. The correct answer is C.
The balanced chemical equation for cellular respiration, C6H12O6 + 6O2 → 6CO2 + 6H2O + heat + ATP, exemplifies the law of conservation of matter. This law asserts that matter cannot be created or destroyed, only transformed. In this equation, equal numbers of atoms are present on both sides, symbolizing this principle.
While the reactants, glucose (C6H12O6) and oxygen (O2), undergo rearrangement, their total mass remains constant. Carbon, hydrogen, and oxygen atoms are transformed into carbon dioxide (6CO2) and water (6H2O) while releasing energy in the form of heat and ATP.
This equation showcases the fundamental scientific concept of matter conservation in chemical reactions.
Learn more on balanced chemical equation here brainly.com/question/26694427
#SPJ3
Answer:
C
Explanation:
same number of carbon
hydrogen
and
oxygen
Both conduction and convection need matter to transfer thermal energy.
Both only occur when currents are created by different densities.
Conduction involves collision of particles, while convection involves the movement of a liquid or gas.
or both only occur when currents are created by different densities.
(I tried my best to find the answer, let me know if this was helpful, goodluck!)
When the body senses that the heart rate is very high, it secretes hormones that decrease the heart rate.
When a pregnant woman begins to go into labor, the body sends hormones that increase the intensity of the labor contractions.
When someone is exercising intensely, the body sends hormones that increase oxygen supply for cellular respiration.
Answer;
An example of positive feedback loop is;
-When a pregnant woman begins to go into labor, the body sends hormones that increase the intensity of the labor contractions.
Explanation;
-Feedback loops are therefore the process whereby a change to the system results in an alarm which will trigger a certain result. The result will then either increase the change to the system or reduce it to bring the system back to normal.
-Feedback loops are important because they allow living organisms to maintain homeostasis (maintenance of internal environment of the body constant).
-A positive feedback loop occurs in nature when the product of a reaction leads to an increase in that reaction. It moves a system further away from the target of equilibrium, by amplifying the effects of a product or event and occurs when something needs to happen quickly.
A positive feedback loop in biology is a process in which the end product of an action stimulates more of the same action to occur. An example is during child birth, where hormone release intensifies labor contractions, leading to further hormone release. This continues until the process is complete, differentiating from negative feedback loops which work to maintain homeostasis by reversing a process.
A positive feedback loop in biological systems is a process in which the end products of an action cause more of that action to occur. This contrast with a negative feedback loop, which works to stop a process in order to bring the body back to its set point. One of the examples provided is a classic example of a positive feedback loop: when a pregnant woman begins to go into labor, the body sends hormones that increase the intensity of the labor contractions.
This is a positive feedback loop because the contractions that begin labor lead to the release of a hormone (oxytocin) that intensifies those contractions, which then causes more hormones to be released, and so on until the baby is born.
Other instances, such as when blood sugar is low or the heart rate is high, are illustrations of negative feedback loops, where the body works to maintain homeostasis by reversing a process.
#SPJ6
B. diffusion through canaliculi
C. transport through Haversian Canals
D. transport through collagen fibers
b. a large soft egg
c. an egg with an amnion
Answer:
50 Million
Explanation:
The olfactory area in humans is about 2.5 cm2 wide and contains a number of about 50 million receptor cells with 8–20 cilia down in a layer of mucus of about 60 microns thick, produced by Bowmann glands in the olfactory epithelium
Humans possess approximately 400 different types of olfactory receptors, expressed by olfactory sensory neurons in the nose. Each receptor binds to odorant molecules, triggering signals to the brain to recognize different odors. The exact number of olfactory receptor cells is in the millions.
Humans have approximately 400 different types of olfactory receptors. These receptors are expressed by certain genes and each one is capable of recognizing a different type of odorant molecule. Interestingly, although humans can detect about 10,000 different smells, it is suggested that there may be up to 1.72 trillion different recognizable smells in the world.
The receptors are located in the olfactory neurons in the olfactory epithelium within the nasal cavity. The neurons are specialized, with each olfactory sensory neuron carrying only one type of receptor. The receptors bind to the odorants and send signals to the olfactory bulb in the brain, and then to other locations such as the olfactory cortex.
The specific number of olfactory receptor cells in the human body may vary, but it is estimated to be in the millions. Each receptor cell has multiple hair-like cilia that contain the odorant-binding receptor proteins. When an odor molecule binds to a receptor, it causes a response in the sensory cell which then transmits the information to the brain for processing.
#SPJ11