A syringe contains 0.65 moles of he gas that occupy 900.0 ml. what volume (in l) of gas will the syringe hold if 0.35 moles of n
2 answers:
From the explanation, we are given that:
- The mole of gas n1 = 0.65 mol
- The volume it occupied V1 = 900.0 ml
- Mole of Neon = 0.35 ml
To solve this question, we have to consider the Avogadro’s law, which state that "equal volumes of all gases, at the same temperature and pressure, have the same number of molecules”
Therefore, we have to calculate the total number of moles of the gases.
Also we know that the volume it occupied V2 = unknown
According to the Avogadro’s law, the equation will be
x
=
x
=
x
=
To convert 585ml to litre, then we have to divide the derived value by 1000
Therefore we have
0.6L
Therefore, the volume of gas in liters that syringe will hold if 0.35 moles of neon is added is 0.6L
LEARN MORE:
- A syringe contains 0.65 moles of he gas that occupy 900.0 ml. what volume (in l) of gas will the syringe hold if 0.35 moles of ne is added? brainly.com/question/6860167
- A syringe contains 0.65 moles of he gas that occupy 750.0 ml. brainly.com/question/6442444
KEYWORDS:
- moles
- syringe
- convert
- litres
- avogradro's law
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The formal charges of all nonhydrogen atoms are -1.
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<span>Correct answer is:
But how to get there?
Let's start with simple explanation of what exactly is cellular respiration.
Cellular respiration is a multistage biochemical oxidation process of organic substances when prime product is energy (ATP - adenosine triphosphate) and other are released waste products. Cellular respiration takes place even if other metabolic processes are stopped, but cellular respiration may differ in particular organism groups.Some reactions during whole process of cellular respiration are similar in all types of living organisms.
Cellular respiration is prime indication of declining living processes.Only viruses which are on the edge of living organism and chemical particle are not performing cellular respiration.But to the point :P
In cellular respiration all substrates which are in the cell might be organic, but mostly we are using sugar oxidation - glucose in the presence of oxygen. Chemical formula of sugar looks like this:
Oxygen is just
so for now we have just part of the equation:
But what would be on the right hand side?
It's quite simple, remember equation of full combustion? If we want to burn something we need oxygen like in the equation, so the product of this equation would be carbon dioxide, water and of course energy (ATP).Carbon dioxide formula looks like this:
As a reminder water formula:
Full formula would look like that:
But still as you see this equation is unbalanced, after balancing it would like that:
At the end I would like to explain one more thing. Energy which has been released during this process is part of high-energy connection which might be used to perform chemical reactions in the cell or to move organism for example in muscles. We need to remember that production of ATP is not happening with 100% efficiency and part of this energy is released as heat.</span>
But how to get there?
Let's start with simple explanation of what exactly is cellular respiration.
Cellular respiration is a multistage biochemical oxidation process of organic substances when prime product is energy (ATP - adenosine triphosphate) and other are released waste products. Cellular respiration takes place even if other metabolic processes are stopped, but cellular respiration may differ in particular organism groups.Some reactions during whole process of cellular respiration are similar in all types of living organisms.
Cellular respiration is prime indication of declining living processes.Only viruses which are on the edge of living organism and chemical particle are not performing cellular respiration.But to the point :P
In cellular respiration all substrates which are in the cell might be organic, but mostly we are using sugar oxidation - glucose in the presence of oxygen. Chemical formula of sugar looks like this:
Oxygen is just
so for now we have just part of the equation:
But what would be on the right hand side?
It's quite simple, remember equation of full combustion? If we want to burn something we need oxygen like in the equation, so the product of this equation would be carbon dioxide, water and of course energy (ATP).Carbon dioxide formula looks like this:
As a reminder water formula:
Full formula would look like that:
But still as you see this equation is unbalanced, after balancing it would like that:
At the end I would like to explain one more thing. Energy which has been released during this process is part of high-energy connection which might be used to perform chemical reactions in the cell or to move organism for example in muscles. We need to remember that production of ATP is not happening with 100% efficiency and part of this energy is released as heat.</span>