Cuesta College, San Luis Obispo, CA
A hypothesis about dinosaur behavior[*] proposes that a Brachiosaurus could regurgitate 50 kg of vomit that would reach the ground with 6,900 J of translational kinetic energy. Ignore friction/drag, assume a zero initial speed for the vomit, and that it drops straight down. The height that the vomit fell downwards was:
(A) 5.3 m.
(B) 14 m.
(C) 22 m.
(D) 28 m.
[*] Anthony J. Martin, Dinosaurs Without Bones: Dinosaur Lives Revealed by Their Trace Fossils, Pegasus Books (2014).
Correct answer (highlight to unhide): (B)
The energy transfer-balance equation is given by:
Wnc = ∆KEtr + ∆PEgrav + ∆PEelas,
where Wnc = 0 (no external gains/losses of mechanical energy due to friction/drag), and ∆PEelas = 0 (no springs involved), such that the remaining terms in the equation are:
0 = ∆KEtr + ∆PEgrav.
As the vomit fell downwards, its speed increased such that its translational kinetic energy increased, such that its initial-to-final change must be positive: ∆KEtr = +6,900 J. Then assuming that yf = 0, we can solve for the initial height y0 that the vomit started falling from:
0 = +6,900 J + m·g·(0 – y0),
0 = +6,900 J – m·g·y0,
y0 = (+6,900 J)/(m·g),
y0 = (+6,900 J)/((50 kg)·(9.80 kg·m/s2)) = +14.081632653 m,
or to two significant figures, the vomit fell downwards by 14 m.
(Response (A) is √(2·∆KEtr/(m·g)); response (C) is √(m·g); response (D) is (2·∆KEtr/(m·g)).)
Sections 70854, 70855, 73320
Exam code: quiz04w04K
(A) : 2 students
(B) : 58 students
(C) : 10 students
(D) : 1 student
Success level: 81%
Discrimination index (Aubrecht & Aubrecht, 1983): 0.44
Anthony J. Martin
esciencecommons.blogspot.com/2014/02/bringing-to-life-dinosaurs-without-bones.html
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