Problem 5: Draw the shear and moment diagrams for the shaft in the figure below. The support A is a thrust bearing and the support at B is a journal bearing. Note: You can ignore the cross-sectional changes at the load application points. The shear and moment diagrams are just for the shaft. Also, note that a thrust bearing acts similarly to a pin and a journal bearing similar to a roller. 3 kN 2 kN 2 kN |--2m--- 2m -- 2 m--2 m²|
Problem 5: Draw the shear and moment diagrams for the shaft in the figure below. The support A is a thrust bearing and the support at B is a journal bearing. Note: You can ignore the cross-sectional changes at the load application points. The shear and moment diagrams are just for the shaft. Also, note that a thrust bearing acts similarly to a pin and a journal bearing similar to a roller. 3 kN 2 kN 2 kN |--2m--- 2m -- 2 m--2 m²|
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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![### Problem 5:
Draw the shear and moment diagrams for the shaft in the figure below. The support A is a thrust bearing and the support at B is a journal bearing.
**Note:** You can ignore the cross-sectional changes at the load application points. The shear and moment diagrams are just for the shaft. Also, note that a thrust bearing acts similarly to a pin and a journal bearing similar to a roller.
#### Diagram Description:
The diagram is a horizontal shaft supported at two points, A and B, which are labeled as follows:
- **Support A** (Left side): Thrust bearing.
- **Support B** (Right side): Journal bearing.
The shaft is subjected to three vertical downward loads and is divided into four segments, each 2 meters long:
1. A 2 kN load acts at 2 meters from support A.
2. A 3 kN load acts at 4 meters from support A (2 meters from the first load).
3. Another 2 kN load acts at 6 meters from support A, which is at the midpoint between the third and fourth segments of the shaft.
This configuration results in equal spacing between the applied loads and the two supports.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F4fbac1cb-efe7-42d8-96ab-f75a10b54f26%2Fce51dcb0-cc9f-4d03-9c7d-1ce94304807a%2Fl23ao0n_processed.jpeg&w=3840&q=75)
Transcribed Image Text:### Problem 5:
Draw the shear and moment diagrams for the shaft in the figure below. The support A is a thrust bearing and the support at B is a journal bearing.
**Note:** You can ignore the cross-sectional changes at the load application points. The shear and moment diagrams are just for the shaft. Also, note that a thrust bearing acts similarly to a pin and a journal bearing similar to a roller.
#### Diagram Description:
The diagram is a horizontal shaft supported at two points, A and B, which are labeled as follows:
- **Support A** (Left side): Thrust bearing.
- **Support B** (Right side): Journal bearing.
The shaft is subjected to three vertical downward loads and is divided into four segments, each 2 meters long:
1. A 2 kN load acts at 2 meters from support A.
2. A 3 kN load acts at 4 meters from support A (2 meters from the first load).
3. Another 2 kN load acts at 6 meters from support A, which is at the midpoint between the third and fourth segments of the shaft.
This configuration results in equal spacing between the applied loads and the two supports.
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