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#GRAVITATIONAL WAVES DISCOVERY FOR KIDS DOWNLOAD#

Students are entirely receptive to the foundational ideas.

The most interesting results obtained so far from the Einstein-First project are the following: They will experiment with this using simple experiments with lasers. Here we create foundational thinking about mathematics that goes beyond normal arithmetic, to determine where photons will arrive in experiments where light can take two alternative paths. We use soft toy bullets to mimic photons and the recoil of interferometer mirrors to teach about the momentum of photons. To understand light, we first introduce students to the concept of photons, particles of light. At Year 7 levels and above students enjoy learning that the standard formulae of geometry are only approximations because space is curved. Through simple experiments (like using upturned woks to explore the geometry of triangles!) students discover that the laws of geometry depend on the shape of the surface. To understand space, we focus on geometry and arithmetic with questions like what is a straight line ? Once we have explored the concept of a straight line we are ready to do experimental geometry on different surfaces.

Explore Blackbody Radiation with Mission GravityĪt early ages we concentrate on a few key questions like what is space? what is time? what is light? and what is gravity? Our goal is to open the minds of both children and teachers to the fact that a) there are answers to the above questions, b) the answers are not trivial and c) in most cases the answers are different from those taught by most teachers.

Explore the Electromagnetic Spectrum with Mission Gravity.

Explore Gravitation with Mission Gravity.Explore Uncertainty with Mission Gravity.Years 11-12 / VCE Physics - 45-60 min, $8 per student - Available now They will use observations to model the basic evolution of a star. Mission Gravity: The Life of a Star (45 - 60 min) - In this qualitative version of Mission Gravity, students collaborate to use VR to build a conceptual understanding of how stars evolve over time and how the stars’ features change. Aligns with standards in the Australian Curriculum Students will use the laws of physics and the freedom of virtual reality to learn about how stars change over time and the tools scientists can use to study stars. In this incursion, students will collaborate in teams to create a model of stellar evolution by collecting and analysing data from a virtual trip to nearby stars. Mission Gravity! (90 - 120 min) - The flagship OzGrav Incursion program, Mission Gravity! combines classic scientific modeling with immersive virtual reality.

#GRAVITATIONAL WAVES DISCOVERY FOR KIDS DOWNLOAD#

Students will use the laws of physics and the freedom of virtual reality to learn about how stars change over time and the tools scientists can use to study stars.įor Bookings please contact here to download a flyer.Ĭlick here for Curriculum Links and Learning Outcomes Mission Gravity! combines classic scientific modeling with immersive virtual reality. Take a trip in virtual reality to study the stars! Kids - here's a great article Observing Our Universe With Light and Gravity Humans of LIGO - Short profiles of people involved with the Laser Interferometer Gravitational-Wave Observatory (LIGO) Please contact with any educational or outreach requests. We are producing short animations, videos and social media content to make gravitational wave physics more accessible to schools and the general public. We are developing new outreach programs and materials for use across all of OzGrav's research nodes. The Gravity Discovery Centre houses exhibitions on black holes, cosmology, fundamental physics and technology, lecture theatre, and a major public astronomy facility. OzGrav researchers work with numerous outreach partners, including the Gravity Discovery Centre (GDC), a spectacular $10 million dollar, 1500 m2 outreach facility, co-located at the Australian International Gravitational Research Centre (AIGRC) in Gingin, in Western Australia. OzGrav embraces these opportunities, through its n ational Education and Public Outreach (EPO) program – for the general public, for schools, and for eager citizen scientists. The birth of gravitational astronomy creates a new focus on general relativity, and presents enormous opportunities, and a substantial responsibility, for educating the public on discoveries that will change the way we view the Universe.