Describe the process of emulsification. Name the substance which performs this job. Name the organ that synthesizes this substance. Name the organ which stores and concentrates this substance. How does this substance get into the duodenum of the small intestine? g

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Answer 1
Answer:

Answer:

Emulsification is a process where two liquids that do not mix are mixed, in digestion, it is the breaking down of fat globules in the duodenum into tiny droplets

Explanation:

The substance which performs emulsification is called bile

Bile is synthesized in the liver

Bile is stored and concentrated in the gallbladder

Once bile has been synthesized, it moves out of the liver through the hepatic ducts, the ducts (left and right) join to form the common hepatic duct which joins the duct from the gallbladder called the cystic duct. This bile duct enters the small intestine through a sphinter (Oddi) below the stomach.


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Based upon what you know what would happen to bone tissue if one of the three types of bone cells were missing but the other types of bone cells were present in the tissue?

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Answer:

My conviction is what would happen to the bone tissue if one pf the three bone cells were missing but the other types of bone cells were present in the tissue is that it would be beneficial to have all four bone cells in the human tissue based on anatomy and celllar organisms such as humans but having only one bone cell in the human tissue would and create a longer time standard to heal if the human goes trough internal bleeding and even external.

Having all four cells would make the tissue stronger and it is imperitive to have many more red and white blood cells to heal the tissue.The bone tissue would still be part of the human body as obvious but in a weaker and more vunerable stage.

_______ is a condition that occurs after prolonged heavy exercise over an extended period of time.

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Answer: I think it is Aerobic capacity

Explanation:   Cardiorespiratory endurance is often used interchangeably with aerobic or cardiorespiratory fitness.

sorry if it is wrong.

Aerobic capacity would be my guess ‍♀️

Which of the following would affect heart rate in a similar way to activation of the parasympathetic ANS? Group of answer choices a. Norepinephrine antagonists
b. Overexpression of norepinephrine receptors on cardiac muscle
c. Reduce AChR expression on the cardiac muscle
d. Increased nicotinic receptor expression on skeletal muscle Atropine

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Norepinephrine antagonists would affect heart rate in a similar way to activation of the parasympathetic ANS.

Answer: Option A

Explanation:

Norepinephrine is responsible for increasing the rate of the heart and causes contraction of the muscles. Having an antagonist norepinephrine would act in the opposite way and would decrease the rate of the heart and help relax the body of the human.

It will act in a similar way to activation of parasympathetic ANS which is responsible for the decreasing the heart rate and increasing the digestion at a faster rate. It relaxes the body of the humans.

The structure of methotrexate, a drug used to treat cancer, resembles that of _____

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Answer:

folate

Explanation:

The non-primary auditory pathway is responsible for?

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Answer: Carrying all types of sensory messages.

Explanation:

The non-primary auditory pathway carries sensory messages. It is also called as reticular sensory pathway. The auditory messages are converted into sensory messages. The main function of this pathway is connected to the motivation and wake for hormonal and vegetative centers.

the client has been prescribed a 4 gram bolus of magnesium sulfate to run over 20 minutes. it arrives from the pharmacy diluted in 250 ml of normal saline. what rate does the nurse set the iv pump to run the bolus? (enter a whole number, round as needed. )

Answers

The nurse needs to set the IV pump to provide 4 grams of magnesium sulfate over a 20-minute period to run the bolus.

Since the bolus comes diluted in 250 mL of normal saline, the nurse needs to calculate the rate at which the bolus will be delivered. To do this, the nurse needs to divide the amount of magnesium sulfate (4 grams) by the time it should take to deliver the bolus (20 minutes). This gives a rate of 0.2 grams per minute.

However, since IV pumps deliver in milliliters per hour, the nurse needs to convert this rate to mL/hr. To do this, the nurse multiplies 0.2 grams/minute by 60 minutes/hour, giving a rate of 12 mL/hour. Therefore, the nurse should set the IV pump to 12 mL/hour to provide the 4-gram magnesium sulfate bolus over 20 minutes.

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The IV pump rate for a 4 gram bolus of magnesium sulfate to run over 20 minutes with a total volume of 250 mL should be set at 750 mL/hr.

To calculate the IV pump rate for a magnesium sulfate bolus of 4 grams to be administered over 20 minutes, we need to know the total volume of the IV fluid which is 250 mL.

Since the entire 250 mL should be administered in 20 minutes, we first convert minutes to hours because infusion pumps are calibrated in mL per hour. Thus, 20 minutes is ⅓ of an hour.

To find the infusion rate in mL/hour, we use the formula:

  • Infusion rate (mL/hr) = Total volume (mL) / Time (hr)
  • Infusion rate = 250 mL / (⅓ hr)
  • Infusion rate = 250 mL / 0.333hr
  • Infusion rate = 750 mL/hr

Therefore, the nurse should set the IV pump to run at a rate of 750 mL/hr to administer a 4 gram bolus of magnesium sulfate diluted in 250 mL of normal saline over 20 minutes.