7.3 - Orbit

Get the formative assessment: FA7.3.docx

The Assessment Solved:

1. What is the force of gravity between the Philae probe with a mass of 100. kg and comet 67P with a mass of 1.05x10¹³ kg if the probe is resting on the surface of the 2.05 km radius comet. (That we will pretend is spherical - it's highly not)

( 0.0167 N )

More videos like this one:

2. What distance needs to separate the centers of two 5.20 kg spheres so that the force of gravity between them is 1.20x10^-9 N

(1.23 m )

If you need more practice doing simple gravity problems, see the section below where I have videos for gravity whiteboards:

Force of Gravity Example #1

Force of Gravity Example #2

Force of Gravity Example #3

Force of Gravity Example #4

Force of Gravity Example #5

Force of Gravity Example #6

3. Your 12,500 kg spaceship is orbiting 1.16x10⁷ m from the center of a planet every 17,500 s. What is the mass of the planet?

(3.02x10²⁴ kg)

4. At what distance from the center of our 7.35x10²² kg moon is the orbital velocity 340. m/s?

(4.24x10⁷ m)

5. Draw the new orbit: (Circle or oval indicates your current orbit)

Slow at x: Speed up at x: Speed up at x:

(elliptical,inside, tangent at x) (more elliptical, outside orbit, tangent at x) (less elliptical, outside orbit, tangent at x)

(Watch the video to grade your FA)

Help with the Quizlette

Front

1. What is the force of gravity between a 3.50x10¹³ kg asteroid and a 29,300 kg spaceship if their centers are 1,720 m distant? (23.1 N) <Video>

2. What is the force of gravity between a 2.50x10¹⁴ kg asteroid and a 48,420 kg spaceship if their centers are 5,580 m distant? (25.9 N) <Video>

3. The centers of two lead spheres are separated by 2.70 m. If one sphere has a mass of 32.0 kg, and there is an attractive force of 1.70x10^-9 N, what is the mass of the other sphere? (5.81 kg) <Video>

4. The centers of two lead spheres are separated by 1.55 m. If one sphere has a mass of 223 kg, and there is an attractive force of 1.90x10^-8 N, what is the mass of the other sphere? (3.07 kg) <Video>

5. What distance separates the centers of two lead spheres if one has a mass of 502 kg, the other a mass of 56.0 kg and there is an attractive force of 2.60x10^-12 N? (849 m) <Video>

6. What distance separates the centers of two lead spheres if one has a mass of 215 kg, the other a mass of 197 kg and there is an attractive force of 2.40x10^-8 N? (10.8 m) <Video>

Back

1. What is the orbital velocity 3400 m from the center of a 5.6 x 10¹⁸ kg asteroid? (331.4 ≈ 330 m/s) <Video>

2. You find that you can orbit at 516 m/s 12,150 m from the center of a small moon. What is its mass? (4.85 x 10¹⁹ kg) <Video>

3. A satellite orbits a planet at a distance of 7.5 x 10⁶ m from the center every 8900 seconds. What is the mass of the planet? (3.2 x 10²⁴ kg) <Video>

4. What distance from the center of Earth’s moon is your orbital velocity 120 m/s? (3.4 x 10⁸ m) <Video>

5. What is the period of orbit of a satellite that orbits 1.95 x 10⁶ m from the center of Earth’s moon? (7730 s) <Video>

6. What is the radius of an orbit with a period of 3.16 x 10⁷ s around the sun? (1.50 x 10¹¹ m – yep – it’s the earth) <Video>

More Practice Problems:

Orbit and Gravity Questions from A7.3

Use the value of G = 6.67x10^-11 Nm²/kg²

1. a. What is the force of gravity between a 6.50x10¹⁶ kg asteroid and a 18,700 kg spaceship if their centers are 1,450 m distant? 1:54 Practice 7.3 #1a

b. The centers of two lead spheres are separated by 6.70 m. If one sphere has a mass of 56.0 kg, and there is an attractive force of 3.70x10^-9 N, what is the mass of the other sphere? 1:44 Practice 7 3 #1b

c. You are orbiting the planet Qwrmczl at a radius of 1.45x10⁷ m, at a velocity of 3410 m/s. What is its mass? 5:23 Practice 7 3 #1c

d. What is the period of an orbit that is 3.90x10⁸ m from earth's center? (m = 5.97x10²⁴ kg) 2:53 Practice 7 3 #1d

2. a. What is the force of gravity between a 2.60x10¹³ kg asteroid and a 56,100 kg spaceship if their centers are 3,560 m distant? 1:36 Practice 7 3 #2a

b. What distance separates the centers of two lead spheres if one has a mass of 123 kg, the other a mass of 12.0 kg and there is an attractive force of 3.20x10^-12 N? 1:42 Practice 7 3 #2b

c. You are orbiting the planet Wnnydrydrl at a radius of 7.80x10⁶ m, and a period of 2.30x10⁴ seconds. What is the planet’s mass? 3:31 Practice 7 3 #2c

d. What is the radius of an orbit around earth (m = 5.97x10²⁴ kg) that has an orbital velocity of 27.2 m/s? 1:32 Practice 7 3 #2d

3. a. What is the force of gravity between a 2.10x10¹⁵ kg asteroid and a 23,800 kg spaceship if their centers are 915 m distant? <Video>

b. The centers of two lead spheres are separated by 1.35 m. If one sphere has a mass of 125 kg, and there is an attractive force of 1.30x10^-8 N, what is the mass of the other sphere? <Video>

c. What is the radius of the orbit that has an orbital velocity of 1260 m/s around the earth? (m = 5.97x10²⁴ kg) <Video>

d. What is the period of an orbit with a radius of 3.10x10⁷ m around the moon? (Moon’s mass is 7.36x10²² kg) <Video>

4. a. What is the force of gravity between a 2.30x10¹⁴ kg asteroid and a 12,700 kg spaceship if their centers are 1,640 m distant?

b. What distance separates the centers of two lead spheres if one has a mass of 215 kg, the other a mass of 125 kg and there is an attractive force of 6.40x10^-7 N?

c. What is the period of the orbit that has a radius of 9.50x10⁷ m around the earth? (m = 5.97x10²⁴ kg)

d. You orbit the planet Kssnndnnwrr at a radius of 8.20x10⁷ m with a velocity of 7830 m/s. What is its mass?

5. a. What is the force of gravity between a 23.6x10¹² kg asteroid and a 14,600 kg spaceship if their centers are 758 m distant?

b. The centers of two lead spheres are separated by 4.90 m. If one sphere has a mass of 45.0 kg, and there is an attractive force of 1.20x10^-9 N, what is the mass of the other sphere?

c. What is the velocity of the orbit that has a radius of 4.10x10⁸ m around the earth? (m = 5.97x10²⁴ kg)

d. You are in an orbit with a radius of 8.50x10⁷ m and a period of 1.30x10⁶ s around the planet Rjxnstdnnr. What is its mass?

In general, speeding up brings the far side out, slowing down brings the far side in. Speeding up brings the entire trajectory outside the old one, and slowing down brings entire trajectory inside the old one.

Even More Orbit problems

Get the handout:

1. What is the orbital velocity 3400. m from the center of a 5.60 x 10 ¹⁸ kg asteroid? Oribit#1

2. You find that you can orbit at 516 m/s 12,150 m from the center of a small moon. What is its mass? Orbit#2

3. What distance from the center of the moon is your orbital velocity 120 m/s? Orbit#3

4. A satellite orbits a planet at a distance of 7.5 x 10 ⁶ m from the center every 8900 seconds. What is the mass of the planet? Orbit#4

5. What is the period of orbit of a satellite that orbits 1.950 x 10 ⁶ m from the center of the moon? Orbit#5

6. What is the radius of an orbit with a period of 3.16 x 10 ⁷ s around the sun? Orbit#6

7. A flea is in orbit 2.1 m from the center of a .545 kg baseball. What is the period of orbit? What is the orbital velocity? (the flea and baseball are in deep space)

8. What velocity do you need to orbit 8.20 x 10 6 m from the center of the earth?

9. What velocity do you need to orbit 5.20 x 10 5 m from the surface of the moon? What would be your period of orbit?

10. Fred the alien orbits the planet Zirkon, completing an orbit with a radius of 23.4 x 10 ⁶ m every 3.17 earth days. What is his velocity, and what is the mass of the planet he is orbiting?

11. What is the radius of a geosynchronous orbit? (Around earth, T = 23 hrs, 56 min, 4 sec - but convert it to seconds) How many earth radii is this?

12. What is the period of an orbit 149.6x10 ⁹ m from the center of the sun (in earth days)?

13. At what distance from the surface of the earth is the orbital velocity 5000. m/s?

14. A 4090 kg spacecraft is approaching the moon at 6839 m/s, and wants to orbit 510. km above its surface. What is the speed of orbit at this elevation? They aim 510 km to the side of the moon, but for what time do they need to burn their main engine (that generates 60,123 N of thrust) to reduce their speed to the proper orbital speed?

Useful things to know: