I Review | Constants You are exploring a distant planet. When your spaceship is in a circular orbit at a distance of 630 km above the planet's surface, the ship's orbital speed is 5500 m/s. By observing the planet, you determine its radius to be 4.48 × 106 m. You then land on the surface and, at a place where the ground is level, launch a small projectile with initial speed 13.6 m/s at an angle of 30.8° above the Part A If resistance due to the planet's atmosphere is negligible, what is the horizontal range of the projectile? horizontal. Express your answer with the appropriate units. HA d = Value Units
I Review | Constants You are exploring a distant planet. When your spaceship is in a circular orbit at a distance of 630 km above the planet's surface, the ship's orbital speed is 5500 m/s. By observing the planet, you determine its radius to be 4.48 × 106 m. You then land on the surface and, at a place where the ground is level, launch a small projectile with initial speed 13.6 m/s at an angle of 30.8° above the Part A If resistance due to the planet's atmosphere is negligible, what is the horizontal range of the projectile? horizontal. Express your answer with the appropriate units. HA d = Value Units
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![**Exploring a Distant Planet: Projectile Motion**
When your spaceship is in a circular orbit at a distance of 630 km above the planet's surface, the ship's orbital speed is 5500 m/s. By observing the planet, you determine its radius to be \(4.48 \times 10^6 \, \text{m}\). After landing on the surface at a level ground location, you launch a small projectile with an initial speed of 13.6 m/s at an angle of 30.8° above the horizontal.
**Problem Part A: Calculating the Horizontal Range**
*Given:*
- The angle of launch: 30.8°
- Initial speed of the projectile: 13.6 m/s
*Question:*
If resistance due to the planet's atmosphere is negligible, calculate the horizontal range of the projectile. Please express your answer with the appropriate units.
*Input Fields for Answer:*
- **Value**: [Input box for numerical value]
- **Units**: [Input box for units]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F2e0c671f-6d07-45cf-8505-b36fe395c45a%2F69bb1d73-c2d0-453d-85b0-b10683b965e1%2Fi4w455pa_processed.png&w=3840&q=75)
Transcribed Image Text:**Exploring a Distant Planet: Projectile Motion**
When your spaceship is in a circular orbit at a distance of 630 km above the planet's surface, the ship's orbital speed is 5500 m/s. By observing the planet, you determine its radius to be \(4.48 \times 10^6 \, \text{m}\). After landing on the surface at a level ground location, you launch a small projectile with an initial speed of 13.6 m/s at an angle of 30.8° above the horizontal.
**Problem Part A: Calculating the Horizontal Range**
*Given:*
- The angle of launch: 30.8°
- Initial speed of the projectile: 13.6 m/s
*Question:*
If resistance due to the planet's atmosphere is negligible, calculate the horizontal range of the projectile. Please express your answer with the appropriate units.
*Input Fields for Answer:*
- **Value**: [Input box for numerical value]
- **Units**: [Input box for units]
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