Physioex exercise 9 activity 3. SU_BIO_1012 Exercise 3 Activity 9_Green_webapi.bu.edu 2022-11-02

Physioex exercise 9 activity 3 Rating: 6,3/10 555 reviews

PhysioEx Exercise 9, Activity 3 is a laboratory simulation that allows students to explore the effects of various hormones on the body. In this activity, students are asked to manipulate the levels of thyroid hormone and observe the effects on the metabolic rate of a virtual rat.

Thyroid hormone is produced by the thyroid gland, which is located in the neck. This hormone plays a crucial role in regulating the body's metabolic rate, which is the rate at which the body burns calories. When the thyroid gland produces too little thyroid hormone, the metabolic rate slows down, leading to weight gain and a condition known as hypothyroidism. On the other hand, when the thyroid gland produces too much thyroid hormone, the metabolic rate speeds up, leading to weight loss and a condition known as hyperthyroidism.

In PhysioEx Exercise 9, Activity 3, students are asked to manipulate the levels of thyroid hormone in a virtual rat and observe the effects on the metabolic rate. By increasing or decreasing the levels of thyroid hormone, students can see how the metabolic rate changes in response.

One of the key takeaways from this activity is the importance of thyroid hormone in regulating the body's metabolic rate. This hormone plays a vital role in maintaining a healthy weight and metabolism, and its imbalance can have significant consequences on the body.

Overall, PhysioEx Exercise 9, Activity 3 is a valuable learning tool that helps students understand the role of thyroid hormone in the body and the importance of maintaining proper hormone levels for optimal health.

PhysioEx Exercise 9 Activity 3

physioex exercise 9 activity 3

In the body, how does a nephron maintain a near-constant glomerular filtration rate despite a constantly fluctuating blood pressure? What happened to the glomerular filtration rate as the beaker pressure was increased? PEx-50—PEx-52 Predict Question 1: When you apply a very weak. Both pressure and filtration rate will increase. . Homework: Complete Abdominopelvic Quadrants Table. You correctly answered: A decreased efferent arteriole radius will increase the rate of glomerular filtration. The Function of the Nephron: Computer Simulation.

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SU_BIO_1012 Exercise 3 Activity 9_Green_webapi.bu.edu

physioex exercise 9 activity 3

PhysioEx Lab Report Exercise 3: Neurophysiology of Nerve Impulses Activity 9: The Action Potential: Putting It All Together Name: Jessica Brykov Date: 30 April 2020 Session ID: session-dbf12 ff 0-6b03-5799-9f76-8e5386130171 Pre-lab Quiz Results You scored 50% by answering 2 out of 4 questions correctly. Increase the afferent radius by 0. You correctly answered: The efferent arteriole constriction improved the low glomerular capillary pressure and filtration rate marginally. Post-lab Quiz Results You scored 100% by answering 4 out of 4 questions correctly. You correctly answered: Blood pressure directly affects glomerular filtration rate.

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Physioex Exercise 9 Activity 3

physioex exercise 9 activity 3

Your answer: Glomerular filtration rate and pressure will rise above baseline values. PhysioEx Lab Report Exercise 9: Renal System Physiology Activity 3: Renal Response to Altered Blood Pressure Name: Miranda Date: 6 November 2019 Session ID: session-170df3a6-de2c-34ca-d543-02afa9ec28be Pre-lab Quiz Results You scored 100% by answering 4 out of 4 questions correctly. Your answer: Glomerular filtration rate and pressure will rise above baseline values. If blood pressure were to drop for example, as the result of blood loss , what changes in the nephron would allow the kidney to maintain its normal glomerular filtration rate? As pressure increased, what happened to the pressure in the glomerulus? Post-lab Quiz Results You scored 100% by answering 4 out of 4 questions correctly. You correctly answered: true.

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Physio Ex Exercise 9 Activity 3

physioex exercise 9 activity 3

Easily fill out PDF blank, edit, and sign them. This adjustment is able to keep the glomerular filtration rate and blood pressure at normal values. You correctly answered: true. You correctly answered: Blood pressure directly affects glomerular filtration rate. Experiment Results Predict Questions Sensory neurons respond to an appropriate sensory stimulus with a change in membrane potential that is You correctly answered: graded with the stimulus intensity. Sensory neurons respond to an appropriate sensory stimulus with a change in membrane potential that is 1 Experiment Results Predict Questions At the axon terminal, each action potential causes the release of neurotransmitter.

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PhysioEx Exercise 3 Activity webapi.bu.edu

physioex exercise 9 activity 3

If blood pressure were to drop for example, as the result of blood loss , what changes in the nephron would allow the kidney to maintain its normal glomerular filtration rate? The Effect of Stimulus Frequency on Skeletal Muscle Contraction. You correctly answered: The afferent arteriole dilation returned the low glomerular capillary pressure and filtration rate almost to baseline values. This neurotransmitter diffuses to the receiving end of an interneuron, where it binds to receptors and causes You correctly answered: ion channels to open, so that the receiving end of the interneuron depolarizes. You correctly answered: The efferent arteriole constriction improved the low glomerular capillary pressure and filtration rate marginally. Correct answer: graded with the stimulus intensity. You correctly answered: A decreased efferent arteriole radius will increase the rate of glomerular filtration.

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PhysioEx Exercise 9 Activity webapi.bu.edu

physioex exercise 9 activity 3

This is why you remain in the. PhysioEx Lab Report Exercise 9: Renal System Physiology Activity 3: Renal Response to Altered Blood Pressure Name: Kaelyn Wozniak Date: 1 November 2020 Session ID: session-b2abbcae-cf20-eba6-19ab-1689a3e2a Pre-lab Quiz Results You scored 100% by answering 4 out of 4 questions correctly. You correctly answered: afferent arteriole dilation and efferent arteriole constriction. This neurotransmitter di ff uses to the receiving end of an interneuron, where it binds to receptors and causes You correctly answered: ion channels to open, so that the receiving end of the interneuron depolarizes. Your answer: The nephron can maintain a near-constant glomerular filtration rate despite fluctuating blood pressure because of its ability to dilated and constrict the afferent and efferent arteriole.


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physioex exercise 9 activity 3

What is the difference between stimulus intensity and stimulus frequency? You correctly answered: afferent arteriole dilation and efferent arteriole constriction. You correctly answered: An increased afferent arteriole radius will increase the rate of glomerular filtration. Click the Refill button. You correctly answered: An increased afferent arteriole radius will increase the rate of glomerular filtration. You correctly answered: The afferent arteriole dilation returned the low glomerular capillary pressure and filtration rate almost to baseline values. Exercise 8: Activities 1, 2, 3, 4.

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physioex exercise 9 activity 3

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