Jupiter and Saturn are currently prominent in the early evening sky. In this project you are going to go outside around 8pm, find Jupiter and Saturn, and measure their azimuth with a real compass, or if you don’t have one, a fake compass, such as the compass utility on your phone. Fakeness is quite fashionable these days, and apparently completely ok.
So, step one, GO OUTSIDE at around 8pm. Face East. If you don’t know where East is, use a compass. East has a compass heading of 90 degrees. If you don’t have a real compass, use the compass utility on your phone.
Now, you are facing East. Fairly low in the sky you will easily see the current brightest star in the sky. You can’t miss it. There is no other star in the area nearly that bright. That “star” is the planet Jupiter. It is bright white.
Aim your compass at Jupiter. Read the heading. It will be around 90 degrees, but its exact heading depends on the time, so measure it accurately. That heading is Jupiter’s azimuth. You measured the Sun’s elevation in a previous project, but not its azimuth. Azimuth is the number of degrees around the horizon circle, starting at North and moving East, to some point of interest. If Jupiter’s azimuth were 80 degrees, Jupiter would be directly above that 80-degree point on the horizon. If you have binoculars or a telescope, take a look at Jupiter. You’ll see three or four tiny “stars” in a line across Jupiter. Those are some of Jupiter’s moons.
Once you have measured Jupiter’s azimuth, turn to face South. South is 180 degrees on your compass. Now look up at an angle of about 45 degrees. That’s halfway from the horizon to the point straight up. There will be a medium bright star in the area. It is most unremarkable, but it is the brightest thing in the area. That “star” is the planet Saturn. Use you compass to measure Saturn’s azimuth.
Go back inside and scrub the kitchen and the bathroom for two hours. Don’t forget to scrub behind the toilet. Then go back outside and measure Jupiter’s and Saturn’s azimuth again. You will see it has changed for both planets.
Draw me a simple sketch of the horizon. On a piece of paper, the horizon is NOT circular. It is a straight line. Draw it parallel to the bottom edge of the paper. Put in a few major landmarks on your horizon. For example, a phone pole, big tree, big building, incoming missile, etc. Don’t think artist, think map maker. Then draw in two dots for Jupiter at 8 pm and 10 pm and two dots for Saturn at 8 pm and 10 pm. 9 pm and 11 pm is also fine. Times don’t have to be exactly 8, 9, 10 or 11, but whatever they are, be sure to record them. Label the dots with the name of the planet and the azimuth at the two times. I want to see where those planets were compared to landmarks on your horizon. Scan or photograph your sketch and send it to me.
Category: Astrobiology
This lab report is for the lab exercise Enzymes. Required: Aerospace Application
This lab report is for the lab exercise Enzymes.
Required: Aerospace Application Find an article (and cite your source) that has applied or is currently applying enzymes in an Aerospace setting and discuss within your Conclusion section.
Also Required: the lab report file must be uploaded as either .doc or .docx
Make sure to follow all lab report instructions which can be found in the attached documents.
Attached photo also for the table and graphs that I need it to be done in Data section.
Introduction Background Objectives Mission Design Conclusion1. Introduction The
Introduction
Background
Objectives
Mission Design
Conclusion1. Introduction
The Indian Space Exploration Association (ISRO) has been taking huge steps in the field of room investigation, with its aggressive lunar missions being probably the most unmistakable models. Chandrayaan 1 and Chandrayaan 2 were surprising missions, and ISRO is presently getting ready for the send-off of Chandrayaan 3, the following lunar odyssey. This report investigates the foundation, goals, and mission plan of Chandrayaan 3, featuring India’s continuous obligation to lunar investigation and logical disclosure.
2. Background
2.1 Chandrayaan 1
Chandrayaan 1, India’s most memorable lunar mission, was sent off on October 22, 2008. The mission’s essential goals were to make a high-goal 3D guide of the moon’s surface, concentrate on its mineral structure, and quest for water ice. The rocket left a mark on the world when it found water particles on the moon’s surface, solidifying India’s situation in lunar investigation. Expanding on the progress of Chandrayaan 1, ISRO sent off Chandrayaan 2 on July 22, 2019. This mission consisted of an orbiter, a lander named Vikram, and a meanderer named Pragyan. Regardless of Vikram’s hard handling, the orbiter keeps on working, giving significant information about the moon’s surface and exosphere, and that’s just the beginning. Chandrayaan 2 was a critical stage toward showing India’s capabilities in lunar investigation3. Objectives
3.1 Continuation of Research
Chandrayaan 3 expects to proceed with the logical exploration started by its ancestors. By sending off a lander and meanderer, it will investigate the lunar surface, concentrate on its topography, and quest for water, ice, and other assets that might be valuable for future lunar missions.3.2 Technology Demonstration
ISRO wants to exhibit its capacity for accuracy by arriving on the Moon with Chandrayaan 3. Gaining from the experience of Chandrayaan 2, ISRO plans to further develop the arrival innovation and guarantee a delicate and effective score.3.3 International Collaboration
Chandrayaan 3 will open the doors for a worldwide-coordinated effort. ISRO has communicated its eagerness to work with other space offices and foundations to progress lunar science and innovation. This cooperative methodology could prompt a more far-reaching comprehension of the moon4. Mission Design
4.1 Hardware
Chandrayaan 3 will include an orbiter, a lander, and a meanderer, like Chandrayaan 2. These parts are intended to cooperate to accomplish the mission’s logical and innovative targets.
4.2 Landing Site
ISRO is cautiously choosing an arrival site for Chandrayaan 3. The decision of area is basic for logical investigation and guaranteeing a protected landing. The site will be picked in view of land and security contemplations.
4.3 Timeline
While the specific day for kickoff is still to be reported, ISRO is focused on sending off Chandrayaan 3 inside the following couple of years. The turn of events and testing of the mission’s parts are progressing, and the not entirely settled to keep away from the mix-ups made during the Chandrayaan 2 mission.
5. Conclusion
Chandrayaan 3 is a demonstration of India’s obligation to lunar investigation and its desire to additional logical information and innovative capacities. By expanding on the encounters of Chandrayaan 1 and Chandrayaan 2, ISRO is ready to make critical commitments to the comprehension of the Moon and its true capacity as an asset for future space investigation. The mission additionally connotes ISRO’s ability to team up universally, encouraging collaboration in the field of room science. As India plans to set out on this next lunar odyssey, the world enthusiastically expects the disclosures and progressions that Chandrayaan 3 will bring.
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