Homework Answers
Answer)
The Azimuth of the rising point of a planet located at the Summer Solstice
It depends on the time of a day.
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Astronomy question
Question 2 (1 point) The Azimuth of the rising point of a planet located...
For this assignment, you are challenged to answer a series of questions about a fictional planet,...
For this assignment, you are challenged to answer a series of questions about a fictional planet, Zindau, to demonstrate your understanding of Module Two’s seasonality concepts. Prompt: Our story begins in the Andromeda Galaxy. You are an inhabitant of a planet called Zindau, which is approximately the size of Earth. It orbits a star that is about the same size as the Sun. Further, the distance between these celestial bodies is approximate to the Earth and Sun. However, there are...
Problem 128 (MultisteP) A planet is located at - 8x1010, 7x1010, - 8x1010 > m. A...
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Find the position of the planet Uranus at time t D December 4, 2019, 8:00 pm...
Find the position of the planet Uranus at time t D December 4, 2019, 8:00 pm EST. You will do this by following the steps shown below. (a) Convert the time t to Universal Time (just add 5 hours to EST). (b) Find the Julian day corresponding to time t (using the result of part (a)). (c) Find the time elapsed from the epoch time to time t (i.e., find t T0). (d) Find the mean daily motion n (using...
Astronomy helper Create an application that displays the following menu: select a planet 1. Mercury 2....
Astronomy helper Create an application that displays the following menu: select a planet 1. Mercury 2. Venus 3. Earth 4. Mars 5. exit the program Enter your selection. When the user selects a planet from the menu, the program should display data about the planet's average distance from the sun, the planet's surface temperature. Use the following data in your program: Mercury Average distance from the sun ---------- 57.9 million kilometers Mass---------------3.31 x 10^23kg surface temperature------------ -173 to 430 degrees...
astronomy Question 1 (1 point) Which of the following is closest to the light flux coming...
astronomy
Question 1 (1 point) Which of the following is closest to the light flux coming from a star at a distance of 20 parsecs and having the same luminosity as the Sun? X 10-11 Watts per square meter 2 X 10 10 Watts per square meter 7 X 10-10 Watts per square meter 3 X 10 Watts per square meter 1 X 10-8 Watts per square meter
Question 1: You wish to travel to a planet located 10 light years (ly) away. a)...
Question 1: You wish to travel to a planet located 10 light years (ly) away. a) How fast must you travel for that distance to be only 2.0 ly as seen from your spaceship? b) How long does it take for you to get there in your time? c) According to your friends on Earth, how long does it take for you to get there?
1) A day on a planet X can be in 2 states: sunny or rainy. The...
1) A day on a planet X can be in 2 states: sunny or rainy. The climate of planet X is determined by the following pattern: every sunny day is followed by a sunny day with a probability of 2/3, and every rainy day is followed by a rainy day with a probability of 1/3. (a) Find the transition matrix that represents the above change in weather pattern. (b) Find a steady state vector for the above Markov system. 2)...
1. Seen from the northern latitudes on the Earth, the altitude of the star Polaris a) ...
1. Seen from the northern latitudes on the Earth, the altitude of the star Polaris a) is never above the horizon during the day b) always sets directly in the west c) is equal to your latitude on the Earth d) is never visible during the winter e) is the brightest star in the sky 2. On March 21/22, the sun shines most directly on the Earth’s surface… a) 23 ½ degrees north of the equator. b) 23 ½ degrees...
Question 5 (1 point) Two moons orbit a planet, whose mass is M Planet = 1.7...
Question 5 (1 point) Two moons orbit a planet, whose mass is M Planet = 1.7 x 1024 kg. Moon A's orbital period is 6.4 days. Moon B's orbital period is 9.6 days What is the ratio of the orbital radius of Moon A to that of Moon B? O 0.76 O 1.3 O 0.67 O 1.5 O 1.2
Could someone let me know the correct answers for these questions?
Question 1A finite-state machine (FSM) can serve as a useful model of a continuous (all its variables / attributes have real number values with infinite range and precision) environment. Yes or no?YesNo Question 2Breadth-first and depth-first tree searches always start the search process at the root of the tree. Yes or no?YesNo Question 3Consider a single-agent system where some agent A can travel to every place on the surface of the Earth (environment). Every place (environment state) on Earth can...
Problem 128 (MultisteP) A planet is located at - 8x1010, 7x1010, - 8x1010 > m. A star is located at < 6x1010, - 7x1010, 6x1010m ▼ Part 1 (a) What is T, the vector from the star to the planet? By accessing this Question Assistance, you will learn while you earn points based on the Point Potential Policy set by your instructor. ▼ Part 2 (b) What is the magnitude of ? 1기 = TTi the tolerance is +/-2% By...
astronomy
Question 1 (1 point) Which of the following is closest to the light flux coming from a star at a distance of 20 parsecs and having the same luminosity as the Sun? X 10-11 Watts per square meter 2 X 10 10 Watts per square meter 7 X 10-10 Watts per square meter 3 X 10 Watts per square meter 1 X 10-8 Watts per square meter
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Question 5 (1 point) Two moons orbit a planet, whose mass is M Planet = 1.7 x 1024 kg. Moon A's orbital period is 6.4 days. Moon B's orbital period is 9.6 days What is the ratio of the orbital radius of Moon A to that of Moon B? O 0.76 O 1.3 O 0.67 O 1.5 O 1.2
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