A client delivered a 7-lb 6-oz (3345 g) female infant at 11 pm yesterday after a labor of 14 hours. after breakfast the nursery
staff brings the baby to the new mother. the mother smiles at the baby, then asks that the nurse take the baby back to the nursery because she has not had a shower yet. one hour later the nurse returns with the infant. again the mother smiles at the baby; then she holds her, kisses her, and feeds her a bottle. immediately after feeding the baby, the mother calls the nursery and asks if the baby be picked up so she can take a nap. which behavior is the new mother demonstrating
Rubin postpartum emotional phase is divided into 3. The first phase is called taking in. In this phase, the mother is more focused on her need(resting after delivering the baby, food, or water). The phase is usually last for 2-3 days. After this phase, there will be taking-hold phase and letting-go phase.
In anabolic reactions that involve the synthesis of a large molecule from smaller precursor molecules, NADH and ATP are consumed when they provide the needed electrons or energy.
In catabolic reactions that involve the breakdown of a molecule into smaller subunits, such as glucose to pyruvate, NADH and ATP are produced.
In the reaction Pyruvate +NADH-Lactate +NAD, pyruvate is being reduced.
In the reaction Pyruvate NADH-Lactate +NAD, NADH is being oxidized.
Explanation:
Being involved in synthesis, anabolic reactions require energy in the form of energy storing molecules such as NADH and ATP. Anabolic processes utilize energy produced by the catabolism of complex compounds.
Catabolic processes produce energy or energy storing compounds by breaking down complex substances into simpler ones. All steps of cellular respiration are catabolic processes since they generate energy in the form of ATP or energy yielding molecules such as NADH and FADH2.
Anaerobic respiration takes place during intense physical activity due to which adequate oxygen does not reach the cells. Insufficient oxygen shuttles the pyruvate molecules produced by glycolysis into the lactic acid pathway that reduces pyruvate into lactic acid.
Since, NADH is donating its H+, it is being oxidized to NAD+.
