The jerk and the vertical fall of a shuttlecock
(2022) In European Journal of Physics 43(5).- Abstract
- Jerk, the derivative of acceleration with respect to time, is a physical concept of great practical significance. However, this concept is rarely mentioned in textbooks and is often neglected in physics education. This paper describes how the concept of jerk can be easily introduced in the study of the dynamics of falling bodies, which are significantly affected by air resistance. In this regard, the vertical fall of two different feather shuttlecocks, a standard and a miniature one, is studied. In this simple vertical fall experiment, air resistance is significant and measurable, implying that the acceleration changes, and thus, the jerk can be determined. The velocity, acceleration, and jerk measurements with time during the vertical... (More)
- Jerk, the derivative of acceleration with respect to time, is a physical concept of great practical significance. However, this concept is rarely mentioned in textbooks and is often neglected in physics education. This paper describes how the concept of jerk can be easily introduced in the study of the dynamics of falling bodies, which are significantly affected by air resistance. In this regard, the vertical fall of two different feather shuttlecocks, a standard and a miniature one, is studied. In this simple vertical fall experiment, air resistance is significant and measurable, implying that the acceleration changes, and thus, the jerk can be determined. The velocity, acceleration, and jerk measurements with time during the vertical fall are described and compared with those from different standard air resistance models. The proposed setup can help initiate a discussion of well-known basic physics concepts and modeling approaches, such as displacement, velocity, acceleration, and particularly the often-neglected jerk concept. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/d3a09b5e-0651-42cb-b574-d9a8afe182b3
- author
- Reistad, Nina LU
- organization
- publishing date
- 2022-07-20
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- Vertical fall, Air drag, Terminal Velocity, Jerk, Shuttlecock, Modeling
- in
- European Journal of Physics
- volume
- 43
- issue
- 5
- article number
- 055804
- publisher
- IOP Publishing
- external identifiers
-
- scopus:85137259485
- ISSN
- 0143-0807
- DOI
- 10.1088/1361-6404/ac8320
- language
- English
- LU publication?
- yes
- id
- d3a09b5e-0651-42cb-b574-d9a8afe182b3
- date added to LUP
- 2022-07-22 11:46:56
- date last changed
- 2022-11-21 17:00:26
@article{d3a09b5e-0651-42cb-b574-d9a8afe182b3, abstract = {{Jerk, the derivative of acceleration with respect to time, is a physical concept of great practical significance. However, this concept is rarely mentioned in textbooks and is often neglected in physics education. This paper describes how the concept of jerk can be easily introduced in the study of the dynamics of falling bodies, which are significantly affected by air resistance. In this regard, the vertical fall of two different feather shuttlecocks, a standard and a miniature one, is studied. In this simple vertical fall experiment, air resistance is significant and measurable, implying that the acceleration changes, and thus, the jerk can be determined. The velocity, acceleration, and jerk measurements with time during the vertical fall are described and compared with those from different standard air resistance models. The proposed setup can help initiate a discussion of well-known basic physics concepts and modeling approaches, such as displacement, velocity, acceleration, and particularly the often-neglected jerk concept.}}, author = {{Reistad, Nina}}, issn = {{0143-0807}}, keywords = {{Vertical fall; Air drag; Terminal Velocity; Jerk; Shuttlecock; Modeling}}, language = {{eng}}, month = {{07}}, number = {{5}}, publisher = {{IOP Publishing}}, series = {{European Journal of Physics}}, title = {{The jerk and the vertical fall of a shuttlecock}}, url = {{http://dx.doi.org/10.1088/1361-6404/ac8320}}, doi = {{10.1088/1361-6404/ac8320}}, volume = {{43}}, year = {{2022}}, }