Rank from largest to smallest. To rank items as equivalent, overlap them. • View Available Hint(s) Reset Help 国国国国關圈 m = 200 kg L = 5000 m v = 160 m/s m = 100 kg L = 2500 m v = 160 m/s m = 400 kg L= 2500 m v = 80 m/s m = 800 kg L= 10000 m v = 40 m/s m = 200 kg L = 5000 m v = 120 m/s m = 300 kg L = 10000 m v = 80 m/s largest smallest

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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**Text:**

Six artificial satellites circle a space station at constant speed. The mass \( m \) of each satellite, distance \( L \) from the space station, and the speed \( v \) of each satellite are listed below. The satellites fire rockets that provide the force needed to maintain a circular orbit around the space station. The gravitational force is negligible.

**Diagram Explanation:**

The image contains a diagram illustrating the arrangement of a space station at the center of a circle, representing the orbit path of the satellites. A single satellite is depicted on the circular orbit with:

- A line connecting the space station and the satellite, labeled as distance \( L \), indicating the radius of the circular orbit.
- An arrow on the path showing the direction of the satellite’s velocity, labeled \( v \), showing the tangent direction of motion.

This diagram is a visual representation of the configuration described in the text, highlighting the key parameters involved in maintaining the satellites in circular orbit.
Transcribed Image Text:**Text:** Six artificial satellites circle a space station at constant speed. The mass \( m \) of each satellite, distance \( L \) from the space station, and the speed \( v \) of each satellite are listed below. The satellites fire rockets that provide the force needed to maintain a circular orbit around the space station. The gravitational force is negligible. **Diagram Explanation:** The image contains a diagram illustrating the arrangement of a space station at the center of a circle, representing the orbit path of the satellites. A single satellite is depicted on the circular orbit with: - A line connecting the space station and the satellite, labeled as distance \( L \), indicating the radius of the circular orbit. - An arrow on the path showing the direction of the satellite’s velocity, labeled \( v \), showing the tangent direction of motion. This diagram is a visual representation of the configuration described in the text, highlighting the key parameters involved in maintaining the satellites in circular orbit.
In this exercise, you are tasked with ranking objects based on their respective accelerations from largest to smallest. To compare accelerations, use the given parameters for each object:

1. \( m = 200 \, \text{kg}, \, L = 5000 \, \text{m}, \, v = 160 \, \text{m/s} \)
2. \( m = 100 \, \text{kg}, \, L = 2500 \, \text{m}, \, v = 160 \, \text{m/s} \)
3. \( m = 400 \, \text{kg}, \, L = 2500 \, \text{m}, \, v = 80 \, \text{m/s} \)
4. \( m = 800 \, \text{kg}, \, L = 10000 \, \text{m}, \, v = 40 \, \text{m/s} \)
5. \( m = 200 \, \text{kg}, \, L = 5000 \, \text{m}, \, v = 120 \, \text{m/s} \)
6. \( m = 300 \, \text{kg}, \, L = 10000 \, \text{m}, \, v = 80 \, \text{m/s} \)

- You can overlap items to indicate equivalent ranks.
- A checkbox is available to indicate if the correct ranking cannot be determined.

To submit your ranking, arrange the options in the provided ranking box from the largest acceleration to the smallest. Use the "Submit" button when you're ready to confirm your answer. If needed, use the "Reset" button to start over, or "Help" for additional guidance.
Transcribed Image Text:In this exercise, you are tasked with ranking objects based on their respective accelerations from largest to smallest. To compare accelerations, use the given parameters for each object: 1. \( m = 200 \, \text{kg}, \, L = 5000 \, \text{m}, \, v = 160 \, \text{m/s} \) 2. \( m = 100 \, \text{kg}, \, L = 2500 \, \text{m}, \, v = 160 \, \text{m/s} \) 3. \( m = 400 \, \text{kg}, \, L = 2500 \, \text{m}, \, v = 80 \, \text{m/s} \) 4. \( m = 800 \, \text{kg}, \, L = 10000 \, \text{m}, \, v = 40 \, \text{m/s} \) 5. \( m = 200 \, \text{kg}, \, L = 5000 \, \text{m}, \, v = 120 \, \text{m/s} \) 6. \( m = 300 \, \text{kg}, \, L = 10000 \, \text{m}, \, v = 80 \, \text{m/s} \) - You can overlap items to indicate equivalent ranks. - A checkbox is available to indicate if the correct ranking cannot be determined. To submit your ranking, arrange the options in the provided ranking box from the largest acceleration to the smallest. Use the "Submit" button when you're ready to confirm your answer. If needed, use the "Reset" button to start over, or "Help" for additional guidance.
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