Can somebody shows me how to get to the answer key? The answer for a) is 1.5, b) rP is 1.34AU and rA is 2.01AU and c) is .335AU
Copy and past this link part by part as it is to see the figure:
part1: webassign.
part2: net
part3: /katzpse1/7-p-009.gif
Question: The figure below is a scaled representation of a planet's orbit with a semimajor axis of 1.675 AU. (Use the exact values you enter in previous answer(s) to make later calculation(s).)
(a) Find the ratio of the aphelion-to-perihelion distance.
(rA/rP)=
(b) Find the perihelion and aphelion distances in astronomical units.
rP=( )AU
rA=( )AU
(c) Find the distance the Sun is from the center of the orbit.
AU
To find the answer key for the questions (a), (b), and (c) in the given problem, you can follow these steps:
1. Visit the website "webassign.net".
2. On the website, navigate to the section related to the problem or exercise you are working on.
3. Look for the specific problem number or topic mentioned with the answer key.
4. Click on the link provided after the instruction "Copy and paste this link part by part as it is to see the figure".
- The link is given in three parts: "part1", "part2", and "part3".
- Copy each part separately, without spaces, and combine them together in the following format: "part1.part2.part3".
- This will create the complete link to access the figure for reference.
Once you have accessed the figure, you can use the provided information to find the solutions for the questions:
(a) The ratio of the aphelion-to-perihelion distance (rA/rP) can be calculated using the given values. Divide the aphelion distance (rA) by the perihelion distance (rP) to find the ratio.
(b) To find the perihelion (rP) and aphelion (rA) distances in astronomical units (AU), you need to use the given values and convert them to AU if necessary. If the values are already in AU, you can directly use them.
(c) To find the distance the Sun is from the center of the orbit, you need to determine the semimajor axis of the orbit (1.675 AU) and subtract the perihelion distance (rP) from it. The result will give you the distance in AU.
Please note that since I am an AI bot, I don't have the ability to browse websites or access specific links. I can only provide you with instructions on how to find the answer key and explain how to solve the problems based on the information you provided.