ZuoTi.Pro
Question

Use Kepler’s third law to calculate the orbital radius, in astronomical units, of an imaginary planet...

Use Kepler’s third law to calculate the orbital radius, in astronomical units, of an imaginary planet orbiting the Sun with an orbital period of 46.00 years. Round your answer to two decimal places. **Provide answer in AU**

science   physics   
0 0
Add a comment Improve this question Transcribed image text
Next > < Previous
Sort answers by oldest

Homework Answers

Answer #1

Kepler 3rd 199 for planet The. rao o tha squar He perlods OLe He plane or ear au YT2 a니 Thanks

0 1
Add a comment
Know the answer?
Add Answer to:
Use Kepler’s third law to calculate the orbital radius, in astronomical units, of an imaginary planet...
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Log In

Sign Up

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions

  • In Lecture 4, we discussed Kepler’s third law relatingthe orbital period of a planet (p) to...

    In Lecture 4, we discussed Kepler’s third law relatingthe orbital period of a planet (p) to the semi-major axis (orbital distance, a) of its orbit(p2= a3). We can apply this law as long the object orbits the Sun or another object of the same mass, and the units of orbital period are in (Earth) years and the orbital distance is in Astronomical Units(AU). [1AU is equal to the distance between the Earth and the Sun]. [Note: Newton extended this law...

  • Kepler’s third law

    Kepler’s third law. According to Kepler’s third law of planetary motion, the ratio t^2/r^3 has the same value for every planet in our solar system. R is the average radius of the orbit of the planet measured in astronomical units (AU), and T is the number of years it takes for one complete orbit of the sun. Jupiter orbits the sun in 11.86 years with an average radius of 5.2 AU, whereas Saturn orbits the sun in 29.46 years If...

  • Planetary Speed help: According to Kepler’s Third Law, planets closer to the sun have shorter years....

    Planetary Speed help: According to Kepler’s Third Law, planets closer to the sun have shorter years. We might ask the question, “Is this because they move faster, or because they don’t have as far to go?” Let’s investigate. Speed is distance divided by time, so if we know how far a planet travels and how long it takes, we can calculate speed. Look up the period and orbital distance (in years and AU, respectively) of Mercury, Venus and Earth. Assuming...

  • Kepler’s Third Law indicates that the Period (P) of an orbit is related to the semi-major...

    Kepler’s Third Law indicates that the Period (P) of an orbit is related to the semi-major axis (a) of the orbit with: P 2 = ka3 . Kepler noticed that the value of the constant k changes when we observe systems with different central objects. This means that the orbits of all of the planets in the Solar System have the same value for k, but that value is different for the Moon because all of the planets orbit the...

  • A comet orbits the Sun in 4,063 years. What is its average orbital distance from the...

    A comet orbits the Sun in 4,063 years. What is its average orbital distance from the Sun? Express your answer in AU (enter "AU" for units) and round it to the nearest integer А. An asteroid orbits the Sun at an average orbital distance of 3.12 AU. What is its average orbital period? Express your answer in years (enter "years" for units) and round it to two decimals. В. A moon orbits a planet in 1.5 days. What is the...

  • A previously undiscovered planet B is estimated to have a period of rotation (around the Sun)...

    A previously undiscovered planet B is estimated to have a period of rotation (around the Sun) of 100 Earth years. Using Kepler’s third law, calculate its average distance from the Sun.  Which known planet’s orbit is closest to this planet B? If a planetary body G is 100 AU distance away from the Sun, its period of rotation in Earth years (assuming it is still gravitationally tied to our sun) will be:__________________________ PLEASE SHOW WORK AND EXPLAIN STEPS.

  • QUESTION 4 1 points Using Newton's revision of Kepler's third law, calculate the mass (in solar...

    QUESTION 4 1 points Using Newton's revision of Kepler's third law, calculate the mass (in solar masses) of a star where an Earth like planet orbits it with a semi-major axis of 9 AU and a period of 4.87 Earth years. Recall that for an Earth-like planet, its mass is negligible compared to that of the star. Report your answer to two decimal places

  • Use Kepler's third law to show that the closer a planet is to the Sun, the...

    Use Kepler's third law to show that the closer a planet is to the Sun, the shorter its period. Kepler's third law relates a planet's period around the Sun to the length of the (select) (semimajor or semiminor) axis such that T2 = kR3. It is obvious from this expression that as the distance from the Sun (select) (T or k or R) decreases the period (select) (T or k or R) decreases as well. I have to find the...

  • 6. Using Nowton's version of Kepler's Third Law (15 points). a) (5pt) Compute the semimajor the...

    6. Using Nowton's version of Kepler's Third Law (15 points). a) (5pt) Compute the semimajor the mass of the Sun from the fact that the Earth's orbital period is 1 year and axis is 1 AU. Assume that the mass of the Earth is much smaller than the mass of the Sun. Is this assumption justified? pt) Compute the orbital period of a cubesat orbiting the Earth at an altitude of 400 km above the Earth's surface. c) (5pt) Estimate...

  • A dwarf planet with an average orbital distance of 4.14 x 10° kilometers is kept in...

    A dwarf planet with an average orbital distance of 4.14 x 10° kilometers is kept in its orbit by 6.94 x 101 Newton force exerted on it by the Sun. MSun = 1.99 x 1030 kg. MFarth 5.97 x 1024 kg. What is the mass of that planet? kilograms (use scientific notation and round the coefficient to two decimals). A. В. How many Earth masses is that equivalent to? (use scientific notation and round the coefficient to two decimals). An...

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT