University Of Missouri - Kansas City
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All courses for University Of Missouri - Kansas City
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International Management 370 mngt370 4
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NURSE 160 NURSE160 1
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NURSE 220 exam 7
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NURSE 256 NURSE 256 1
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NURSE 360 NURSE360 2
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NURSE 395 NURSE395 4
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NURSE 395. 1
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Physics Physics111 4
Latest notes & summaries University Of Missouri - Kansas City
NURS 220 Intermediate/Tina Jones Med Math Exam 2023- 
2024 FALL SEMESTER GRADED A+
- Exam (elaborations)
- • 15 pages's •
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University Of Missouri - Kansas City•NURS 220
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NURS 220 Intermediate/Tina Jones Med Math Exam 2023- 
2024 FALL SEMESTER GRADED A+
A client develops interstitial edema as a result of decreased: 
A) Vascular volume 
B) Hydrostatic pressure 
C) Capillary permeability 
D) Colloidal osmotic pressure 
Ans: D 
Feedback: 
Edema can be defined as palpable swelling produced by an increased interstitial fluid 
volume. The physiologic mechanisms that contribute to edema formation include factors 
that (1) increase capillary filtration (hydrostatic) pressure, (2) decrease the capillary 
colloid osmotic pressure, (3) increase capillary ...
- Exam (elaborations)
- • 251 pages's •
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University Of Missouri - Kansas City•Pathophysiology Unit 2
Preview 4 out of 251 pages
A client develops interstitial edema as a result of decreased: 
A) Vascular volume 
B) Hydrostatic pressure 
C) Capillary permeability 
D) Colloidal osmotic pressure 
Ans: D 
Feedback: 
Edema can be defined as palpable swelling produced by an increased interstitial fluid 
volume. The physiologic mechanisms that contribute to edema formation include factors 
that (1) increase capillary filtration (hydrostatic) pressure, (2) decrease the capillary 
colloid osmotic pressure, (3) increase capillary ...
A client develops interstitial edema as a result of decreased: 
A) Vascular volume 
B) Hydrostatic pressure 
C) Capillary permeability 
D) Colloidal osmotic pressure 
Ans: D 
Feedback: 
Edema can be defined as palpable swelling produced by an increased interstitial fluid 
volume. The physiologic mechanisms that contribute to edema formation include factors 
that (1) increase capillary filtration (hydrostatic) pressure, (2) decrease the capillary 
colloid osmotic pressure, (3) increase capillary ...
- Exam (elaborations)
- • 251 pages's •
-
University Of Missouri - Kansas City•Pathophysiology Unit 2
Preview 4 out of 251 pages
A client develops interstitial edema as a result of decreased: 
A) Vascular volume 
B) Hydrostatic pressure 
C) Capillary permeability 
D) Colloidal osmotic pressure 
Ans: D 
Feedback: 
Edema can be defined as palpable swelling produced by an increased interstitial fluid 
volume. The physiologic mechanisms that contribute to edema formation include factors 
that (1) increase capillary filtration (hydrostatic) pressure, (2) decrease the capillary 
colloid osmotic pressure, (3) increase capillary ...
Notes from the full online lecture given by Dr. Magaña.
- Book
- Summary
- • 6 pages's •
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University Of Missouri - Kansas City•BIO 109
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Campbell Biology • Lisa A. Urry, Michael L. Cain, Steven A. Wasserman, Peter V. Minorsky, Jane B. Reece• ISBN 9780134446417
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Notes from the full online lecture given by Dr. Magaña.
Notes from the full online lecture given by Dr. Magaña.
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- Summary
- • 11 pages's •
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University Of Missouri - Kansas City•BIO 109
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Campbell Biology • Lisa A. Urry, Michael L. Cain, Steven A. Wasserman, Peter V. Minorsky, Jane B. Reece• ISBN 9780134446417
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Notes from the full online lecture given by Dr. Magaña.
Notes from the full online lecture given by Dr. Magaña.
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- Summary
- • 8 pages's •
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University Of Missouri - Kansas City•BIO 109
-
Campbell Biology • Lisa A. Urry, Michael L. Cain, Steven A. Wasserman, Peter V. Minorsky, Jane B. Reece• ISBN 9780134446417
Preview 2 out of 8 pages
Notes from the full online lecture given by Dr. Magaña.
Notes from the full online lecture.
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- Summary
- • 2 pages's •
-
University Of Missouri - Kansas City•BIO 109
-
Campbell Biology • Lisa A. Urry, Michael L. Cain, Steven A. Wasserman, Peter V. Minorsky, Jane B. Reece• ISBN 9780134446417
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Notes from the full online lecture.
Notes from the full online lecture.
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- Summary
- • 5 pages's •
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University Of Missouri - Kansas City•BIO 109
-
Campbell Biology • Lisa A. Urry, Michael L. Cain, Steven A. Wasserman, Peter V. Minorsky, Jane B. Reece• ISBN 9780134446417
Preview 2 out of 5 pages
Notes from the full online lecture.
Notes from the full online lecture.
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- Summary
- • 4 pages's •
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University Of Missouri - Kansas City•BIO 109
-
Campbell Biology • Lisa A. Urry, Michael L. Cain, Steven A. Wasserman, Peter V. Minorsky, Jane B. Reece• ISBN 9780134446417
Preview 1 out of 4 pages
Notes from the full online lecture.
Notes from the full online lecture on Chapter 36.
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- Class notes
- • 4 pages's •
-
University Of Missouri - Kansas City•BIO 109
-
Campbell Biology • Lisa A. Urry, Michael L. Cain, Steven A. Wasserman, Peter V. Minorsky, Jane B. Reece• ISBN 9780134446417
Preview 1 out of 4 pages
Notes from the full online lecture on Chapter 36.