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...
International audienceWe study experimentally the dynamics of shuttlecocks. We show that their traje...
Free fall motion in air medium is only influenced by gravitation acceleration. However, there are se...
The increase of the resistance of the movement - on the basis of the dynamic fundamental law F.t = m...
The paper aims at the kinetics of a body under free fall, especially free body motion, the motion oc...
I have put the topics of motion under drag forces into the school environment. In the first part I h...
Rapid changes in forces and the resulting changes in acceleration, jerk and higher order derivatives...
An experimental setup with computer based measurements is introduced. It is possible to observe the ...
AbstractEvangelical legends about Çwalking on watersÈ though they are apparently a fruit of imaginat...
The existence of the jerk vector is investigated in projectile motion under gravity. The jerk vector...
The main purpose of this study was to construct and validate a motion equation for the flight of the...
A new series of introductory physics experiments for teaching the kinematics and dynamics of falling...
Bouncing on a trampoline lets the jumper experience the interplay between weightlessness and large f...
This is the classic demonstration showing that the acceleration of free fall is independent of mass,...
Andrew C. Fry1, Matthew Hermes1 1University of Kansas, Lawrence, KS Studies analyzing vertical groun...
We study experimentally shuttlecocks dynamics. In this part we show that shuttlecock trajectory is h...
International audienceWe study experimentally the dynamics of shuttlecocks. We show that their traje...
Free fall motion in air medium is only influenced by gravitation acceleration. However, there are se...
The increase of the resistance of the movement - on the basis of the dynamic fundamental law F.t = m...
The paper aims at the kinetics of a body under free fall, especially free body motion, the motion oc...
I have put the topics of motion under drag forces into the school environment. In the first part I h...
Rapid changes in forces and the resulting changes in acceleration, jerk and higher order derivatives...
An experimental setup with computer based measurements is introduced. It is possible to observe the ...
AbstractEvangelical legends about Çwalking on watersÈ though they are apparently a fruit of imaginat...
The existence of the jerk vector is investigated in projectile motion under gravity. The jerk vector...
The main purpose of this study was to construct and validate a motion equation for the flight of the...
A new series of introductory physics experiments for teaching the kinematics and dynamics of falling...
Bouncing on a trampoline lets the jumper experience the interplay between weightlessness and large f...
This is the classic demonstration showing that the acceleration of free fall is independent of mass,...
Andrew C. Fry1, Matthew Hermes1 1University of Kansas, Lawrence, KS Studies analyzing vertical groun...
We study experimentally shuttlecocks dynamics. In this part we show that shuttlecock trajectory is h...
International audienceWe study experimentally the dynamics of shuttlecocks. We show that their traje...
Free fall motion in air medium is only influenced by gravitation acceleration. However, there are se...
The increase of the resistance of the movement - on the basis of the dynamic fundamental law F.t = m...