Cuesta College, San Luis Obispo, CA
Alternative Ballistics
youtu.be/5TFuZ_ol7Hw
An Alternative Ballistics attachment[*] for a handgun holds a stationary hollow metal sphere at the end of the barrel, such that it catches the bullet to become a non-lethal projectile. The initial speed of the bullet[**] (mass 1.1×10–2 kg) is 350 m/s, and after it embeds in the sphere, the combined bullet-sphere final speed is 70 m/s. Ignore friction, drag, and external forces during the brief amount of time that the bullet takes to embed inside the sphere. The mass of the hollow metal sphere is:
(A) 2.2×10–3 kg.
(B) 4.4×10–2 kg.
(C) 5.5×10–2 kg.
(D) 0.77 kg.
[*] alternativeballistics.com.
[**] wki.pe/.40_S%26W.
Correct answer (highlight to unhide): (B)
Since there are no significant external impulses on the bullet-sphere system during this brief process, total momentum is conserved, so:
0 = m1·(vf1 – v01) + m2·(vf2 – v02),
where for the bullet, m1 = 1.1×10–2 kg, v01 = +350 m/s (in the forward direction), vf1 = +70 m/s (also in the forward direction); and for the sphere, m2 = ?, v02 = 0, vf2 = +70 m/s (same as the final velocity of the bullet, as they travel together after this completely inelastic collision). So solving for the mass m2 of the sphere:
0 = m1·(vf1 – v01) + m2·(vf2 – 0),
–m2·vf2 = m1·(vf1 – v01),
m2 = –m1·(vf1 – v01)/vf2,
m2 = –(1.1×10–2 kg)·((+70 m/s) – (+350 m/s))/(+70 m/s) = 0.044 kg,
or to two significant figures, the mass of the sphere is 4.4×10–2 kg.
(Response (A) is m1·(vf1/v01); response (C) is m1·(v01/vf1); response (D) is m1·v01.)
Student responses
Sections 70854, 70855, 73320
Exam code: quiz04w04K
(A) : 5 students
(B) : 44 student
(C) : 18 students
(D) : 5 students
Success level: 61%
Discrimination index (Aubrecht & Aubrecht, 1983): 0.36
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