Resources with topic Astronomy
From OER in Education
Lesson ideas that have this topic
|Astronomy||From Earth to Moon|
Why the efforts to get to the moon in the 1960's might make you understand why we've not returned since.The race to the Moon was as much driven by politics as science, and this backdrop continues to influence space exploration and terrestrial research to this day. It was an amazing achievement to travel so far - guided by computers that were trivial set beside today's mobile phones. It is a story well worth telling to encourage engagement in science, scientific method(ta) as well as the understanding of the ethical(topic) context of this pursuit.
|Astronomy||Recreating the Big Bang|
An introduction to the creation of the Universe.This presentation offers a tour of the European Organization for Nuclear Research (CERN) and explains why it is worth spending money on one experiment. It then delves into particle physics, looking at sub-atomic particles to offer analogies for what these particles are. The session focuses on whole class(ta) dialogue(ta) and higher order(ta) thinking skills as well as exploring scientific language(ta). This 4th session and the 5th are together the most theoretically complex and they present challenges to young peoples world views. As such they are led as much by their questions(ta) as by the presentation.
|Astronomy||Stars in the sky: what's up?|
Use a software planetarium and encourage students to think about astronomyThis activity offers an opportunity for whole class(ta) discussion(ta) and questioning(ta) centred around the use of the Stellarium. It also affords good opportunities for self-directed study or homework(ta) extensions, including perhaps the use of free mobile apps(tool) (see below). There are also opportunities for some cross curricula(i) discussion of geography (navigation by stars) and history or literacy in relation to the ancient world.
Are we alone?This last of six presentations to recruit students for A level physics, is more light-hearted and simpler than the two previous resources. It considers the arguments around whether or not humanity is alone and includes an initial look at the bizarre nature of many of the claims of alien encounters - including a fictional one for good measure - before moving onto the more serious side of alien hunting. It concludes with a probabilistic argument based on the Fermi paradox.
Why would we fly to another planet to study its rocks?Drawing on a rich range of sources, this presentation allows the teacher to introduce planetary geology(topic), something not normally studied until degree level. It uses the narrative(ta) of the Voyager Probes journey to illustrate the vastness of the solar system(topic) and also the challenges of designing a spacecraft to travel that far. It ends with a discussion of the history(topic) of Mars, and how the differences between it and the Earth resulted in Mars loosing its water and atmosphere whereas we have kept ours.
|Astronomy||Astronomy Master Class|
An overview of of six astronomy-related lessons resources (SC019 to SC0024)The Astronomy Master Class was developed to inspire the next generation of scientists and in particular physicists. Although this course of 6 lessons is framed mostly around the science of astronomy, it draws on many themes from physics and aims to show how they all can link together. Additionally, it is structured so that it deliberately does not cut across material in most standard GCSE science courses and does not aim to answer every question. A deliberate part of the design was to visit each topic area only briefly and leave students hungry for more.
|Astronomy||It's full of stars|
Using a telescope and considering how those early astronomers may have workedAstronomy(topic) has been practiced for centuries and doesn't require expensive equipment! This first session aims to train the whole class(ta) to use a telescope and, hopefully, to provide an opportunity to engage in some active learning(ta). The lesson includes some naked-eye observations and describes how modern technology helps scientists know where to look. You can explore the scientific method(ta) and language(ta) at this point, using targeted questioning(ta)/differentiation(ta). Students may be able to engage in an inquiry(ta)-based project around this work, perhaps for homework(ta).
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