a. b. The normal force which the path exerts on a particle is always on: The Normal direction O The Transverse direction The Tangent direction The Radial direction It is time to draw, match the axis you will draw on the free body diagram or the kinetic diagram with the force or acceleration on this specific axis: Y axis Normal axis Tangent axis Radial axis Transverse axis N [Choose ] [Choose] The normal force between the surface and the motorcycle The weight of the motorcycle The frictional force between the surface and the motorcycle The transverse acceleration (a theta) The radial acceleration (ar) [Choose] [Choose ] [Choose ]
a. b. The normal force which the path exerts on a particle is always on: The Normal direction O The Transverse direction The Tangent direction The Radial direction It is time to draw, match the axis you will draw on the free body diagram or the kinetic diagram with the force or acceleration on this specific axis: Y axis Normal axis Tangent axis Radial axis Transverse axis N [Choose ] [Choose] The normal force between the surface and the motorcycle The weight of the motorcycle The frictional force between the surface and the motorcycle The transverse acceleration (a theta) The radial acceleration (ar) [Choose] [Choose ] [Choose ]
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
Related questions
Question
![### Understanding Normal Force in Motion
#### The Normal Force and its Direction
The normal force which the path exerts on a particle is always on:
- [ ] The Normal direction
- [ ] The Transverse direction
- [ ] The Tangent direction
- [ ] The Radial direction
#### Explanation of the Diagram
The provided diagram illustrates a motorcycle. An arrow labeled "N" indicates the direction of the normal force acting on the motorcycle. This force is shown perpendicular to the surface on which the motorcycle moves.
### Axis Selection for Forces and Accelerations
Now, let's determine the appropriate axes for drawing the free body diagram or kinetic diagram with the specific forces or accelerations on each axis:
- **Y axis**:
- [Choose]
- The normal force between the surface and the motorcycle
- The weight of the motorcycle
- The frictional force between the surface and the motorcycle
- The transverse acceleration (a theta)
- The radial acceleration (a r)
- **Normal axis**:
- [Choose]
- The normal force between the surface and the motorcycle
- The weight of the motorcycle
- The frictional force between the surface and the motorcycle
- The transverse acceleration (a theta)
- The radial acceleration (a r)
- **Tangent axis**:
- [Choose]
- The normal force between the surface and the motorcycle
- The weight of the motorcycle
- The frictional force between the surface and the motorcycle
- The transverse acceleration (a theta)
- The radial acceleration (a r)
- **Radial axis**:
- [Choose]
- The normal force between the surface and the motorcycle
- The weight of the motorcycle
- The frictional force between the surface and the motorcycle
- The transverse acceleration (a theta)
- The radial acceleration (a r)
- **Transverse axis**:
- [Choose]
- The normal force between the surface and the motorcycle
- The weight of the motorcycle
- The frictional force between the surface and the motorcycle
- The transverse acceleration (a theta)
- The radial acceleration (a r)
These selections will help in properly analyzing the forces and accelerations acting on the motorcycle in different directions.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F697ee80b-6834-4809-8325-e33cf8ac2219%2Fa75c67a9-75bb-4cb4-9bef-08343c6e6d3e%2F2sh97c_processed.png&w=3840&q=75)
Transcribed Image Text:### Understanding Normal Force in Motion
#### The Normal Force and its Direction
The normal force which the path exerts on a particle is always on:
- [ ] The Normal direction
- [ ] The Transverse direction
- [ ] The Tangent direction
- [ ] The Radial direction
#### Explanation of the Diagram
The provided diagram illustrates a motorcycle. An arrow labeled "N" indicates the direction of the normal force acting on the motorcycle. This force is shown perpendicular to the surface on which the motorcycle moves.
### Axis Selection for Forces and Accelerations
Now, let's determine the appropriate axes for drawing the free body diagram or kinetic diagram with the specific forces or accelerations on each axis:
- **Y axis**:
- [Choose]
- The normal force between the surface and the motorcycle
- The weight of the motorcycle
- The frictional force between the surface and the motorcycle
- The transverse acceleration (a theta)
- The radial acceleration (a r)
- **Normal axis**:
- [Choose]
- The normal force between the surface and the motorcycle
- The weight of the motorcycle
- The frictional force between the surface and the motorcycle
- The transverse acceleration (a theta)
- The radial acceleration (a r)
- **Tangent axis**:
- [Choose]
- The normal force between the surface and the motorcycle
- The weight of the motorcycle
- The frictional force between the surface and the motorcycle
- The transverse acceleration (a theta)
- The radial acceleration (a r)
- **Radial axis**:
- [Choose]
- The normal force between the surface and the motorcycle
- The weight of the motorcycle
- The frictional force between the surface and the motorcycle
- The transverse acceleration (a theta)
- The radial acceleration (a r)
- **Transverse axis**:
- [Choose]
- The normal force between the surface and the motorcycle
- The weight of the motorcycle
- The frictional force between the surface and the motorcycle
- The transverse acceleration (a theta)
- The radial acceleration (a r)
These selections will help in properly analyzing the forces and accelerations acting on the motorcycle in different directions.
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