Answer:
Large-scale insulin could be produced in relatively lesser time.
Explanation:
We already sort of do this where we infect the bacteria with a plasmid containing our insulin gene and it causes them to produce insulin. Since the question is saying that we edited their DNA directly, now these bacteria don't need to be infected with plasmid b/c now they can just pass these genes onto their offspring.
This will allow us to make TONS of insulin cuz bacteria are crazy good at making stuff and growing.
The ship with the curve not the orange or the black squares but the curve
So,
The Lewis structure for ethylene is two carbons double-bonded to each other, and two hydrogens single-bonded to each carbon atom.
Each bond symbolizes two shared valence electrons. Since the carbon atoms are double-bonded, they share four (4) valence electrons (the other electrons are in lower energy levels and do not appear because they typically don't react when higher energy-level electrons are on top of them).
Answer:
moles = 3.057x10⁻⁵ moles of C₆H₈O₆
Explanation:
In order to do this, we need to write the balanced reaction that is ocurring here.
In the titration we have:
KIO₃ + 6H⁺ + 5I⁻ --------> 3I₂ + 3H₂O + K⁺
As for the ascorbic acid solution:
C₆H₈O₆ + I₂ -------> C₆H₆O₆ + 2I⁻ + 2H⁺
From these two reactions, we can see that the KIO₃ solution reacts always with 3 moles of I₂, so, if the moles of C₆H₈O₆ are the same moles of I₂, we can assume that KIO₃ reacts with 3 moles of C₆H₈O₆. Therefore, the expression to use will be:
3n₁ = n₂
3M₁V₁ = M₂V₂
M₂ = 3M₁V₁ / V₂
Replacing we have:
M₂ = 3 * 0.001 * 10.19 / 25
M₂ = 0.001223 M
Finally the moles of ascorbic acid:
moles = 0.001223 * 0.025
<h2>
moles = 3.057x10⁻⁵ moles of C₆H₈O₆</h2>
Hope this helps