Which method is used to determine orbital period from semi-major axis?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards
From $9.99Unlock all

Prepare for the STARS TAP Exam. Enhance your chances with flashcards and multiple choice formats, ensuring comprehensive understanding. Excel in your examination!

Multiple Choice

Which method is used to determine orbital period from semi-major axis?

Explanation:
The key relationship here is how the orbital period links to the size of the orbit. For a bound two-body system, the time it takes to go around once (the period) depends on the semi-major axis and the central body's gravitational parameter. The standard way to determine the period from the semi-major axis is Kepler's third law, written as P = 2π sqrt(a^3/μ), where μ = GM of the primary. This shows the period grows with the 3/2 power of the semi-major axis and directly uses a. The vis-viva equation, v^2 = μ(2/r − 1/a), describes the speed at a specific point along the orbit given a and μ. It is excellent for finding instantaneous velocity but does not directly provide the orbital period from the semi-major axis. Newton's law underpins these relations and can derive them, but the straightforward, commonly used method to get P from a is Kepler's law. Hohmann transfer formulas relate to changing orbits, not the basic P–a relationship.

The key relationship here is how the orbital period links to the size of the orbit. For a bound two-body system, the time it takes to go around once (the period) depends on the semi-major axis and the central body's gravitational parameter. The standard way to determine the period from the semi-major axis is Kepler's third law, written as P = 2π sqrt(a^3/μ), where μ = GM of the primary. This shows the period grows with the 3/2 power of the semi-major axis and directly uses a.

The vis-viva equation, v^2 = μ(2/r − 1/a), describes the speed at a specific point along the orbit given a and μ. It is excellent for finding instantaneous velocity but does not directly provide the orbital period from the semi-major axis. Newton's law underpins these relations and can derive them, but the straightforward, commonly used method to get P from a is Kepler's law. Hohmann transfer formulas relate to changing orbits, not the basic P–a relationship.

More Multiple Choice Questions
Subscribe

Get the latest from Examzify

You can unsubscribe at any time. Read our privacy policy