Answer:
from glycolysis to electron transport.-glycolytic pathway
NADH and FADH2 are the major electron carrier from glycolysis through the Kreb Cycle to the electron transport chain.
Note-NADH alone transports electron from glycolysis to the Kreb Cycle. while both NADH and FADH2 transport electrons from the kreb'cycle to the electron transport chain.
from citric ac id cycle to the electron transport chain.
as explained above both NADH and FADH2.
The electrons are in the hydrogen atoms, carried by these co-enzymes. When they reached the matrix, the hydrogen atoms are split into protons and electrons(p and e-). it is these electrons that form gradients which are transported as chains in the matrix. The gradients of the electron generated PMF for pumping Hydrogen atoms into the intramembrane of mitochondrial
Note.
Nicotinamide Adenine Di nucleotide Hydrogen(NADH)
Flavin Adenine Dinucleotide Hydrogen(FADH)
Explanation:
Hemodialysis is the process of artificially filtering waste products from the patient's blood.
<h3>What is
Hemodialysis?</h3>
A person whose kidneys are not functioning correctly undergoes hemodialysis, also known as hemodialysis or simply dialysis, to filter their blood. When the kidneys are in a condition of renal failure, this type of dialysis removes wastes like creatinine and urea as well as free water from the blood extracorporeally. One of the three renal replacement therapies is hemodialysis (the other two being kidney transplant and peritoneal dialysis). Apheresis is a different technique for extracorporeal separation of blood components like plasma or cells.
To learn more about Hemodialysis with the help of given link:
brainly.com/question/980658
#SPJ4
Answer:
the last one is right I think
Explanation:
we can control the contraction of skeletal muscles because they are the voluntary muscles in our body........