Foundations of Astronomy
13th Edition
ISBN: 9781305079151
Author: Michael A. Seeds, Dana Backman
Publisher: Cengage Learning
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Chapter 21, Problem 4DQ
To determine
The best place to land inside the mercury by the space craft.
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I. Pushing on a File Cabinet
Bob has been asked to push a heavy file cabinet down the
hall to another office. It's not on rollers, so there is a lot
of friction. At time t = 0 seconds, he starts pushing it
from rest with increasing force until it starts to move at t
= 2 seconds. He pushes the file cabinet down the hall
with varying amounts of force. The velocity versus time
graph of the cabinet is shown below.
A. On the graphs provided below,
1. draw the net force vs. time that would produce this velocity graph;
2. draw the friction force vs. time for this motion;
3. draw the applied force (Fon Cabinet by Bob) VS. time for this motion (the first two seconds of this graph
have been drawn for you).
Velocity (m/s)
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Friction Force (N)
Net Force (N)
A
-m
B
-U
time
(s)
D
time
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Chapter 21 Solutions
Foundations of Astronomy
Ch. 21 - How does the force of gravity cause tidal coupling...Ch. 21 - As viewed from Earth, how many times does the Moon...Ch. 21 - If the Moon is tidally coupled to Earth, is Earth...Ch. 21 - How can you determine the relative ages of the...Ch. 21 - From looking at images of the Moons near side, how...Ch. 21 - Why did the first Apollo missions land on the...Ch. 21 - Why do planetary scientists hypothesize that the...Ch. 21 - Prob. 8RQCh. 21 - Prob. 9RQCh. 21 - Prob. 10RQ
Ch. 21 - What is the most significant kind of erosion that...Ch. 21 - Provide evidence to support a hypothesis about...Ch. 21 - What evidence can you cite that the Moon had...Ch. 21 - What evidence would you expect to find on the Moon...Ch. 21 - How does the large-impact hypothesis explain the...Ch. 21 - Look at the Celestial Profiles for Earth, the...Ch. 21 - Look at the Celestial Profiles for the Moon and...Ch. 21 - Prob. 18RQCh. 21 - Look at the Celestial Profiles for Earth, the...Ch. 21 - Look at the Celestial Profiles for the Moon and...Ch. 21 - Why are features like the Moons maria not observed...Ch. 21 - What are the relative ages of the intercrater...Ch. 21 - What evidence can you give that Mercury has a...Ch. 21 - Why is it not surprising that there is no evidence...Ch. 21 - What evidence can you give that Mercury had...Ch. 21 - How are the histories of the Moon and Mercury...Ch. 21 - What property of the Moon and Mercury has resulted...Ch. 21 - Prob. 28RQCh. 21 - Prob. 1DQCh. 21 - Prob. 2DQCh. 21 - Prob. 3DQCh. 21 - Prob. 4DQCh. 21 - Look at the right top and bottom images in Figure...Ch. 21 - Calculate the escape velocity of the Moon from its...Ch. 21 - Prob. 3PCh. 21 - Why do small planets cool faster than large...Ch. 21 - The smallest detail visible through Earth-based...Ch. 21 - Prob. 6PCh. 21 - The trenches where Earths seafloor slips downward...Ch. 21 - An Apollo command module orbited the Moon about...Ch. 21 - Prob. 9PCh. 21 - What is the angular diameter of Mercury when it is...Ch. 21 - If you transmit radio signals to Mercury when...Ch. 21 - What is the wavelength of the most intense...Ch. 21 - Suppose you send a probe to land on Mercury, and...Ch. 21 - The smallest detail visible through Earth-based...Ch. 21 - Look at the image of the astronaut on the Moon at...Ch. 21 - Examine the shape of the horizon at the Apollo 17...Ch. 21 - In the photo shown here, astronaut Alan Bean works...
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- Part A: kg (a) Water at 20 °C (p = 998.3 and v = 1 × 10-6 m²/s) flows through a galvanised m³ iron pipe (k = 0.15 mm) with a diameter of 25 mm, entering the room at point A and discharging at point C from the fully opened gate valve B at a volumetric flow rate of 0.003 m³/s. Determine the required pressure at A, considering all the losses that occur in the system described in Figure Q1. Loss coefficients for pipe fittings have been provided in Table 1. [25 marks] (b) Due to corrosion within the pipe, the average flow velocity at C is observed to be V2 m/s after 10 years of operation whilst the pressure at A remains the same as determined in (a). Determine the average annual rate of growth of k within the pipe. [15 marks] 4₁ Figure Q1. Pipe system Page 2 25 mmarrow_forwardFor an independent study project, you design an experiment to measure the speed of light. You propose to bounce laser light off a mirror that is 53.5 km due east and have it detected by a light sensor that is 119 m due south of the laser. The first problem is to orient the mirror so that the laser light reflects off the mirror and into the light sensor. (a) Determine the angle that the normal to the mirror should make with respect to due west.(b) Since you can read your protractor only so accurately, the mirror is slightly misaligned and the actual angle between the normal to the mirror and due west exceeds the desired amount by 0.003°. Determine how far south you need to move the light sensor in order to detect the reflected laser light.arrow_forwardA mirror hangs 1.67 m above the floor on a vertical wall. A ray of sunlight, reflected off the mirror, forms a spot on the floor 1.41 m from the wall. Later in the day, the spot has moved to a point 2.50 m from the wall. (a) What is the change in the angle of elevation of the Sun, between the two observations?arrow_forward
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