All of the above, since:
Part of biology is the study of the human body. But not only that, chemistry is really everything, since everything is made of atoms, even you. Understanding atoms and chemistry helps us to understand physics, biology, and all the other sciences, due to how applicable it is. Chemistry is why we have modern inventions and medicine, even. So, knowing how chemistry plays into our everyday lives and what our bodies consume end up impacting the human body, as studied in biology. This incluses bacteria, viruses, and everything in between. :)
In this case the answer would be Letter D
<u>Answer:</u> The equilibrium concentration of is 0.332 M
<u>Explanation:</u>
We are given:
Initial concentration of = 2.00 M
The given chemical equation follows:
<u>Initial:</u> 2.00
<u>At eqllm:</u> 2.00-2x x x
The expression of for above equation follows:
We are given:
Putting values in above expression, we get:
Neglecting the value of x = 1.25 because equilibrium concentration of the reactant will becomes negative, which is not possible
So, equilibrium concentration of
Hence, the equilibrium concentration of is 0.332 M
If the magnetic lines of force intersected each other, then that would violate the laws of physics.
If the lines intersected, then at the point of
intersections there would be two directions of magnetic field force, and this cannot defy the laws of physics, so therefore it does not happen.
A good example of this would be if you had a
compass and you tried to use it to view the field direction. If you had two lines of force
intersecting, then the compass would have to
point in both directions, and that can't happen both theoretically and through observation.
An event like that would generate a monopole, which is an impossible, theoretical magnetic event.