Imagine a 3-dimensional world with coordinates that are labeled with x, y, and z, as if you are in a large room with walls, a high ceiling and a floor. The edges are x, y and z with z up toward the ceiling, the flat plane floor is x-y. Starting at the origin, go along "x" 2 meters. Then go parallel to "y" 4 meters. Then go up parallel to "z" 3 meters. This point is somewhere in the room above the floor. What is the vector from the origin to the point? What is the magnitude of that vector? That is, what is its length? What angle does it make to the floor? This would be 90°-θ where θ is the angle down from the z azis. (Hint: Use the arctangent knowing z and the length of the vector.) If you dropped from that point directly down to the floor, how far would you fall? How long would it take, given that falling objects accelerate at 10 m/s every second (10 m/s2)?
Imagine a 3-dimensional world with coordinates that are labeled with x, y, and z, as if you are in a large room with walls, a high ceiling and a floor. The edges are x, y and z with z up toward the ceiling, the flat plane floor is x-y. Starting at the origin, go along "x" 2 meters. Then go parallel to "y" 4 meters. Then go up parallel to "z" 3 meters. This point is somewhere in the room above the floor. What is the vector from the origin to the point? What is the magnitude of that vector? That is, what is its length? What angle does it make to the floor? This would be 90°-θ where θ is the angle down from the z azis. (Hint: Use the arctangent knowing z and the length of the vector.) If you dropped from that point directly down to the floor, how far would you fall? How long would it take, given that falling objects accelerate at 10 m/s every second (10 m/s2)?
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter2: Vectors
Section: Chapter Questions
Problem 59P: At one point in space, the direction of the electric field vector Is given In the Cartesian system...
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Imagine a 3-dimensional world with coordinates that are labeled with x, y, and z, as if you are in a large room with walls, a high ceiling and a floor. The edges are x, y and z with z up toward the ceiling, the flat plane floor is x-y.
Starting at the origin, go along "x" 2 meters. Then go parallel to "y" 4 meters. Then go up parallel to "z" 3 meters. This point is somewhere in the room above the floor.
- What is the vector from the origin to the point?
- What is the magnitude of that vector? That is, what is its length?
- What angle does it make to the floor? This would be 90°-θ where θ is the angle down from the z azis. (Hint: Use the arctangent knowing z and the length of the vector.)
- If you dropped from that point directly down to the floor, how far would you fall?
- How long would it take, given that falling objects accelerate at 10 m/s every second (10 m/s2)?
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