Dr Natalia Vale Asari

Departamento de Física, UFSC, Florianópolis, Brazil

Professora Adjunta C (equivalent to senior lecturer in the UK or assistant professor in the US) at Universidade Federal de Santa Catarina, Brazil

Science outreach content created by Physics 1 students (2021-1)

2021-10-13 | physics, science outreach, teaching

Some of the content created by students in my of Physics 1 courses (FSC5101: maths, oceanography, and engineering undergrads; FSC5107: physics undergrads) at UFSC in the 2021-1 term. All the groups below have agreed to make their content public. We asked them prepare, in groups, science outreach content to be shared in social media. The theme should encompass classical mechanics.

This activity was conceived by Dr. Marina Hirota, and implemented in a collective course by professors Marina Hirota, Natalia Vale Asari and Oswaldo Ritter.

Note: all content is in Portuguese.

YouTube video (4 min): Physics sailorsYouTube video (4 min): Physics sailors.
Group 1, FSC5101: Blenda Barbosa, Gillian Fachinetto Oliveira, Hilario Tadeu da Fonseca Júnior, Natalia Becker, Pedro Gundlach Prates de Campos.
Target audience: 14 to 18 year-old teenagers who have already had contact with Physics 1 topics.

Youtube video (15 min): Derivatives and their propertiesYoutube video (15 min): Derivatives and their properties.
Group 3, FSC5101: Renan Rabelo Goularti, Sofia Meneghel Silva.
Target audience: people who have some knowledge about mathematical functions, such as secondary school students; other concepts are explained in the video itself.

Youtube video (10 min): constant velocity and constant accelerationYoutube video (10 min): constant velocity and constant acceleration.
(NB: the formula s = s0 + vt can only be applied when there is no acceleration).
Group 4, FSC5101: Alícia Pacheco Dias, Breno Fernando Vieira Rosa, Riccardo de Andrade Barbosa.
Target audience: secondary school students, or Physics 1 students, aiming to reach those who have trouble working with formulas and would benefit from a practical example.

5 videos on TikTok (1 to 3 min): Linear momentum, projectile motion, free fall, relativity5 videos on TikTok (1 to 3 min): Linear momentum, projectile motion, free fall, relativity
Group 5, FSC5101: Adrielson Echamendi da Silva, Gabriel Bevilacqua Barros Dias, Jaqueline Ribeiro Dias, N'Horque Seidi.
Target audience: students in general, especially secondary school students.

YouTube video (5 min): Newton's LawsYouTube video (5 min): Newton's Laws Newton.
Group 1, FSC5107: Arthur da Silva Zimermann, Bruno Leandro Cortizo Burgos, Jonathan João Ramos, Nicollas Leonardo Martins Moura.
Target audience: secondary school students.

4 carousels on Instagram: The scientific method4 carousels on Instagram: The scientific method.
Group 2, FSC5107: Amanda Leticia Fischer, Elisa de Melo Alvarenga, Gabriella C. Grützmann Tomazini, Jassiara Raísa Schmitt, João Lucas Soares.
Target audience: general public.

Carousel on Instagram: How does the scientific method work?Carousel on Instagram: How does the scientific method work?.
Group 3, FSC5107: Laura Carolina da Costa, Lorenzo de Oliveira Heald, Maria Augusta S. Carvalho, Matheus Ferrari, Robson Ricardo da Silva.
Target audience: general public.

Blog post + video: Principles of Classical MechanicsBlog post + video: Principles of Classical Mechanics
Group 4, FSC5107: Eduardo Bleichvel Oneda, Gabriel Miranda Lima, Luiz Eduardo Borges Cardoso, Paulo Carvalho Neto.
Target audience: secondary school students, undergrad students and general public.

YouTube video (10 min): Newton's laws and historical approachesYouTube video (10 min): Newton's laws and historical approaches.
Group 5, FSC5107: Amadeus Dal Vesco, Hugo Silva, Leonardo Nascimento, Maria Eduarda Ramos Pedro, Sofia G dos Santos, Vinícius W. Carqueija.
Target audience: general public.

YouTube video (5 min): Free fallYouTube video (5 min): Free fall.
Group 6, FSC5107: Joao Pedro B. de Aguiar, João Vitor Mews Bastos, Thabata John Barreto.
Target audience: general public.



Contact

Natalia Vale Asari

Departamento de Física, CFM, UFSC

Caixa Postal 476

Florianópolis (SC)

88040-900

Brazil

Tel: +55 48 3721 3703

Office: 232

natalia[@]astro.ufsc.br