Lecture- Tutorials for Introductory Astronomy
3rd Edition
ISBN: 9780321820464
Author: Edward E. Prather, Tim P. Slater, Jeff P. Adams, Gina Brissenden
Publisher: Addison-Wesley
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Chapter 1, Problem 9POP
To determine
Label the directions north, south, east, and west on Figure 1.
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Consider the situation in the figure below; a neutral conducting ball hangs from the ceiling by an insulating string, and a charged insulating rod is going to be placed nearby.
A. First, if the rod was not there, what statement best describes the charge distribution of the ball?
1) Since it is a conductor, all the charges are on the outside of the ball. 2) The ball is neutral, so it has no positive or negative charges anywhere. 3) The positive and negative charges are separated from each other, but we don't know what direction the ball is polarized. 4) The positive and negative charges are evenly distributed everywhere in the ball.
B. Now, when the rod is moved close to the ball, what happens to the charges on the ball?
1) There is a separation of charges in the ball; the side closer to the rod becomes positively charged, and the opposite side becomes negatively charged. 2) Negative charge is drawn from the ground (via the string), so the ball acquires a net negative charge. 3)…
answer question 5-9
Chapter 1 Solutions
Lecture- Tutorials for Introductory Astronomy
Ch. 1 - Prob. 1POPCh. 1 - Can the observer shown see a star when it is...Ch. 1 - Prob. 3POPCh. 1 - When a star travels from a position below the...Ch. 1 - When a star travels from a position below the...Ch. 1 - Star A is just visible above your eastern horizon...Ch. 1 - At which position(s), if any, does Star B rise and...Ch. 1 - Two students are discussing their answers to...Ch. 1 - Label the directions north, south, east, and west...Ch. 1 - For each indicated position, describe where in the...
Ch. 1 - Does Star B ever set?
Ch. 1 - Prob. 1MOPCh. 1 - The rotation of the celestial sphere carries Star...Ch. 1 - Using Figure 2, describe the direction you have to...Ch. 1 - The position directly overhead is called the...Ch. 1 - Prob. 5MOPCh. 1 - Prob. 6MOPCh. 1 - Recall that in Question 6, you found that Star A...Ch. 1 - Two students are discussing the direction of...Ch. 1 - Prob. 9MOPCh. 1 - Consider the student comment below.
Student: The...Ch. 1 - Consider the situation shown below in which the...Ch. 1 - In Question 11, we found that Figure 5 was drawn...Ch. 1 - Which labeled constellation do you see highest in...Ch. 1 - For the time shown, which constellation is just to...Ch. 1 - Noting that you are exactly on the opposite side...Ch. 1 - In six hours, will the observer be able to see the...Ch. 1 - Which constellation will be behind the Sun at the...Ch. 1 - When it is noon for the observer, which...Ch. 1 - One month later, Earth will have moved one-twelfth...Ch. 1 - Do you have to look east or west of the highest...Ch. 1 - Does the constellation that was highest in the sky...Ch. 1 - Imagine last night you saw the star Betelgeuse...Ch. 1 - Two students are discussing their answers to...Ch. 1 - Earth orbits the Sun in a counter clockwise...Ch. 1 - As Earth orbits the Sun, it also rotates in a...Ch. 1 - How long does it take Earth to rotate exactly...Ch. 1 - Two students are discussing their answers to...Ch. 1 - When does Earth rotate a greater amount, during a...Ch. 1 - Which takes a shorter amount of time, a solar day...Ch. 1 - Imagine that at some time in the future the...Ch. 1 - Through how many degrees will Earth now rotate in...Ch. 1 - Through how many degrees will Earth now rotate in...Ch. 1 - Which is now longer, the solar or the sidereal...Ch. 1 - Is a sidereal day now longer, shorter, or the same...Ch. 1 - Is a solar day now longer, shorter, or the same...Ch. 1 - At 3 P.M. that afternoon, will the Sun appear...Ch. 1 - Two students are discussing their answers to...Ch. 1 - Is it reasonable to account for the Sun’s daily...Ch. 1 - Draw the location of the Sun as accurately as...Ch. 1 - Figure 3 shows the same view of the sky (as Figure...Ch. 1 - Why is it reasonable to think of the Sun as...Ch. 1 - On Figure 4, draw where the Sun will be located on...Ch. 1 - On Figure 4, for the other constellations, draw in...Ch. 1 - Label the ecliptic in Figure 4.
Ch. 1 - About how many times does the celestial sphere...Ch. 1 - How long does it take the Sun to make one complete...Ch. 1 - On Figure 5d, label the ecliptic (Sun’s annual...Ch. 1 - Which Figure (5a, 5b, 5c, or 5d) shows the Sun at...Ch. 1 - Which Figure (5a, 5b, 5c, or 5d) shows the Sun at...Ch. 1 - Which star group will appear highest in the night...Ch. 1 - Figure 2 shows a south-facing horizon view star...Ch. 1 - Prob. 3STPCh. 1 - Prob. 4STPCh. 1 - Prob. 5STPCh. 1 - Prob. 6STP
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- Three point-like charges in the attached image are placed at the corners of an equilateral triangle as shown in the figure. Each side of the triangle has a length of 38.0 cm, and the point (C) is located half way between q1 and q3 along the side. Find the magnitude of the electric field at point (C). Let q1 = −2.80 µC, q2 = −3.40 µC, and q3 = −4.50 µC. Thank you.arrow_forwardSTRUCTURES I Homework #1: Force Systems Name: TA: PROBLEM 1 Determine the horizontal and vertical components of the force in the cable shown. PROBLEM 2 The horizontal component of force F is 30 lb. What is the magnitude of force F? 6 10 4 4 F = 600lbs F = ?arrow_forwardThe determined Wile E. Coyote is out once more to try to capture the elusive Road Runner of Loony Tunes fame. The coyote is strapped to a rocket, which provide a constant horizontal acceleration of 15.0 m/s2. The coyote starts off at rest 79.2 m from the edge of a cliff at the instant the roadrunner zips by in the direction of the cliff. If the roadrunner moves with constant speed, find the minimum velocity the roadrunner must have to reach the cliff before the coyote. (proper sig fig)arrow_forward
- Hello, I need some help with calculations for a lab, it is Kinematics: Finding Acceleration Due to Gravity. Equations: s=s0+v0t+1/2at2 and a=gsinθ. The hypotenuse,r, is 100cm (given) and a height, y, is 3.5 cm (given). How do I find the Angle θ1? And, for distance traveled, s, would all be 100cm? For my first observations I recorded four trials in seconds: 1 - 2.13s, 2 - 2.60s, 3 - 2.08s, & 4 - 1.95s. This would all go in the coloumn for time right? How do I solve for the experimental approximation of the acceleration? Help with trial 1 would be great so I can use that as a model for the other trials. Thanks!arrow_forwardAfter the countdown at the beginning of a Mario Kart race, Bowser slams on the gas, taking off from rest. Bowser get up to a full speed of 25.5 m/s due to an acceleration of 10.4 m/s2. A)How much time does it take to reach full speed? B) How far does Bowser travel while accelerating?arrow_forwardThe drawing in the image attached shows an edge-on view of two planar surfaces that intersect and are mutually perpendicular. Side 1 has an area of 1.90 m^2, Side 2 has an area of 3.90 m^2, the electric field in magnitude is around 215 N/C. Please find the electric flux magnitude through side 1 and 2 combined if the angle (theta) made between the electric field with side 2 is 30.0 degrees. I believe side 1 is 60 degrees but could be wrong. Thank you.arrow_forward
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