A fireworks rocket is moving at a speed of 45.0 m/s. The rocket suddenly breaks into two pieces...
A fireworks rocket is moving at a speed of v = 46.2 m/s. The rocket suddenly breaks into two pieces of equal mass, which fly off with velocities v1 at an angle of theta1 = 28.1° and v2 at an angle of theta2 = 61.9°. What is the magnitude of v1? PLEASE SHOW ALL WORK NEATLY.
A fireworks rocket moving at a speed of 21.1 m/s suddenly breaks into two pieces of equal mass. If the masses fly off with velocities , and v,, as shown in the drawing, determine the speed of each mass. 30.0" 60.0° (a) speed associated with ū m/s (b) speed associated with v m/s
Question 1 2 pts sing Online A fireworks rocket moving at a speed of 16.4 m/s suddenly breaks into two pieces of equal mass. If the masses fly off with velocities vector vyand vector V2, as shown in the drawing, determine the speed of each mass, in m's Start with the velocity of mass 1: rary 2 pts Question 2 For the problem above, what is the final velocity of mass 2? MacBook Pro
A fireworks rocket moving at a speed of \(52.2 \mathrm{~m} / \mathrm{s}\) suddenly breaks into two pieces of equal mass. If the masses fly off with velocities \(\vec{v}_{1}\) and \(\vec{v}_{2}\), as shown in the drawing, determine the speed of each mass.(a) speed associated with \(\overrightarrow{\mathbf{v}}_{1}\)\(\mathrm{m} / \mathrm{s}\)(b) speed associated with \(\overrightarrow{\mathbf{v}}_{2}\)\(\mathrm{m} / \mathrm{s}\)
UPS 2007/2008 (Q3b) 2 60° 30° V2 FIGURE 3 A homemade rocket is moving at a speed of 45 ms. The rocket breaks into two pieces of equal mass which fly off with velocities, v, and v2, as shown in FIGURE 3. Calculate the magnitude of vi, and v (Neglect the effect of gravity) [6 marks] Ans : 44.41 m s1, 77.92 m s']
An object of mass 3M, moving in the +x direction at speed vo, breaks into two pieces of mass M and 2M as shown in the figure. V = ? 2M 3M O = 0 If 01 = 63.0° and 02 22.0°, determine the final velocities Vi and v2 of the resulting pieces in terms of vo. M V = ? V1 = VO U2 = VO
An object of mass 3M, moving in the +x direction at speed vo, breaks into two pieces of mass M and 2M as shown in the figure. 2M 3M VO If 01 65.0° and 02 24.0°, determine the final velocities Vi and U2 of the resulting pieces in terms of VO. M V = ? V1 = VO U2 = VO
2M V = ? An object of mass 3M, moving in the +x direction at speed vo, breaks into two pieces of mass M and 2M as shown in the figure. If 01 = 70.0° and 02 = 24.0°, determine the final velocities v1 and v2 of the resulting pieces in terms of vo- 3M M V1 = VO v2 = VO
An object of mass 3M, moving in the +x direction at speed vo, breaks into two pieces of mass M and 2M as shown in the figure. 2M 3M 0, If 0, = 64.0° and 02 = 21.0°, determine the final velocities Vi and U2 of the resulting pieces in terms of vo. M v = ? V1 = 1.078 VO U2 = 1.4 VO Incorrect
2M An object of mass 3M, moving in the + x[direction at speed vo, breaks into two pieces of mass M and 2M as shown in the figure If 0, = 62.09 and 02 = 23.0", determine the final velocities U and v2 of the resulting pieces in terms of vo. 3M M