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Critical Reflection

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  Module Learning Refining my critical thinking and communication skills over the past 13 weeks has allowed me to realise that improvements are still needed. During my first few lessons in my critical thinking class, I was introduced to the Paul Elder framework which widened my perspective on how critical thinking is not as complex as it seems. Over time, when I started using the Paul Elder Framework and the 7 C’s in communication, I found it simpler to analyse a problem.  Prior to this module, I had an idea that this was just going to be another English class. I did not think I would benefit much as I thought my English was pretty strong. Progressively when I started writing and communicating in class, I encountered personal challenges. It took me some time to adjust but after putting a couple of goals for myself, it was a smoother journey for me during this module. Firstly, the goal that I had set for myself at the start was learning to structure my sentence and essay correctly. I fe
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Aleeya_sum_rr_Darft3

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   Griggs’s article “Why stars look spiky in images from the James Webb Space Telescope” (Griggs, 2022) explains how the stars appear clearer than ever in the new images captured by the James Webb Space Telescope (JWST). The article explains how the JWST differs from its predecessor, the Hubble telescope with reference to the number of diffraction each telescope produces. With the aim to take distinct images of the stars, the U.S. National Aeronautics and Space Administration has developed a telescope equipped with “hexagonal mirrors that result in an image with six diffraction spikes” (Griggs, 2022). Taking a closer look, it is described that all of the bright objects in the JWST photos have the same eight-pointed pattern, making them look like Christmas ornaments looking spikes.  Griggs reports that the near-infrared lights gathered by the Near-Infrared Camera (NIRCam) enhance the diffraction spikes of the stars. The NIRCam is one of the developments of JWST in order for the telescop
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Summary/Reader Response: Draft 3

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   Griggs’s article “Why stars look spiky in images from the James Webb Space Telescope” (Griggs, 2022) explains how the stars appear clearer than ever in the new images captured by the James Webb Space Telescope. The article explains how the JWST differs from its predecessor, the Hubble telescope with reference to the number of diffraction each telescope produces.  With the aim to take distinct images of the stars, The U.S. National Aeronautics and Space Administration has developed a telescope equipped with “hexagonal mirrors that result in an image with six diffraction spikes”. Taking a closer look, it is described that all of the bright objects in the JWST photos have the same eight-pointed pattern, making them look like Christmas ornaments looking spikes.  Griggs reports that the near-infrared lights gathered by the Near-Infrared Camera (NIRCam) enhance the diffraction spikes of the stars. The NIRCam is one of the developments of JWST  in order for the telescope to deliver clear i
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Summary/Reader Response: Draft 2

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   Griggs’s article “Why stars look spiky in images from the James Webb Space Telescope” (Griggs, 2022) explains how the stars appear clearer than ever in the new images captured by the James Webb Space Telescope. The article explains how the JWST differs from its predecessor, the Hubble telescope with reference to the number of diffraction each telescope produces.  With the aim to take distinct images of the stars, The U.S. National Aeronautics and Space Administration has developed a telescope equipped with “hexagonal mirrors that result in an image with six diffraction spikes”. Taking a closer look, it is described that all of the bright objects in the JWST photos have the same eight-pointed pattern, making them look like Christmas ornaments looking spikes.  Griggs reports that the near-infrared lights gathered by the Near-Infrared Camera (NIRCam) enhance the diffraction spikes of the stars. The NIRCam is one of the developments of JWST  in order for the telescope to deliver clear i
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Summary/Reader Response (Draft 1)

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   Griggs’s article “Why stars look spiky in images from the James Webb Space Telescope” (Griggs, 2022) explains how the stars appear clearer than ever in the new images captured by the James Webb Space Telescope. The article explains how the JWST differs from its predecessor, the Hubble telescope with reference to the number of diffraction each telescope produces.  With the aim to take distinct images of the stars, The U.S. National Aeronautics and Space Administration has developed a telescope equipped with “hexagonal mirrors that result in an image with six diffraction spikes”. Taking a closer look, it is described that all of the bright objects in the JWST photos have the same eight-pointed pattern, making them look like Christmas ornaments looking spikes.   Griggs reports that the near-infrared lights gathered by the Near-Infrared Camera (NIRCam) enhance the diffraction spikes of the stars. The NIRCam is one of the developments of JWST  in order for the telescope to deliver clear
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Design Summary (Draft 2): Space Telescope

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   Mary’s article “Why stars look spiky in images from the James Webb Space Telescope” (Griggs, 2022) explains how the stars appear clearer than ever in the new images captured by the James Webb Space Telescope. The article explains how the JWST differs from its predecessor, the Hubble telescope with reference to the number of diffraction each telescope produces.  With the aim to take distinct images of the stars, The U.S. National Aeronautics and Space Administration has developed a telescope equipped with “hexagonal mirrors that result in an image with six diffraction spikes”. Taking a closer look, it is described that all of the bright objects in the JWST photos have the same eight-pointed pattern, making them look like Christmas ornaments looking spikes.   Mary reports that the near-infrared lights gathered by the NIRCam enhance the diffraction spikes of the stars. The NIRCam is one of the developments of JWST  in order for the telescope to deliver clear images of the stars. Moreov
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Design Summary (Draft 1): Space Telescope

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 Mary’s article “Why stars look spiky in images from the James Webb Space Telescope” (Griggs, 2022) explains how the stars appear clearer than ever in the new images captured by the James Webb Space Telescope. The article explains how the JWST differs from its predecessor, the Hubble telescope with reference to the number of diffraction each telescope produces.  With the aim to take distinct images of the stars, The U.S. National Aeronautics and Space Administration has developed a telescope equipped with “hexagonal mirrors that result in an image with six diffraction spikes”. Taking a closer look, it is described that all of the bright objects in the JWST photos have the same eight-pointed pattern, making them look like Christmas ornaments looking spikes.   Mary reports that the near-infrared lights gathered by the NIRCam enhance the diffraction spikes of the stars. The NIRCam is one of the developments of JWST  in order for the telescope to deliver clear images of the stars. Moreover
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