The radius of Mars is 3.37 × 106 m, and its mass is 6.42 × 1023 kg. X Part A How long will it take a rock dropped from 2.0 m above the surface of Mars to reach the ground? Express your answer in seconds. 195] ΑΣΦ ?

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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**Physics Problem – Gravitational Acceleration on Mars**

**Background Information:**
- The radius of Mars is \(3.37 \times 10^6\) meters.
- The mass of Mars is \(6.42 \times 10^{23}\) kilograms.

**Part A: Problem Statement**

**Question:**
How long will it take a rock dropped from 2.0 meters above the surface of Mars to reach the ground?

**Instructions:**
- Express your answer in seconds.

**Input Box:**

- Place to input the calculated time in seconds (\(t =\)).

**Options:**
- Submit: To submit your answer.
- Previous Answers: To view your previous attempts.
- Request Answer: For a direct solution.

**Note:**
To solve this problem, you would typically use the formula for gravitational acceleration specific to Mars and apply the equations of motion.
Transcribed Image Text:**Physics Problem – Gravitational Acceleration on Mars** **Background Information:** - The radius of Mars is \(3.37 \times 10^6\) meters. - The mass of Mars is \(6.42 \times 10^{23}\) kilograms. **Part A: Problem Statement** **Question:** How long will it take a rock dropped from 2.0 meters above the surface of Mars to reach the ground? **Instructions:** - Express your answer in seconds. **Input Box:** - Place to input the calculated time in seconds (\(t =\)). **Options:** - Submit: To submit your answer. - Previous Answers: To view your previous attempts. - Request Answer: For a direct solution. **Note:** To solve this problem, you would typically use the formula for gravitational acceleration specific to Mars and apply the equations of motion.
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