4) Let's assume that the asteroid the DART spacecraft crashes on is spherical and that its radius is 8.0 x 10¹ m. Lets assume that the force applied on the astroid during the collision has a magnitude of Fool 4.4 x 108 N and is pointing slightly into the ground. The trajectory just before the collision IS SHOWN in the following figure. The denoted angle in the figure, is 15° (Do NOT confuse with Problem 3). What is the torque on the asteroid from that force? a. b. C. d. Trajectory of DART just before crash 0= 15⁰... Surface of astroid (part of a circle) Figure 1: The center of this circle is toward the bottom of the page. -3.4 x 10¹0 N-m -9.2 x 109 N-m +9.2 x 10° N-m +3.4 x 10¹0 N-m

Look at picture and visual as a reference

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Extra Questions and Problems from chapters 7 and 8 4) Let's assume that the asteroid the DART spacecraft crashes on is spherical and that its radius is 8.0 x 10¹ m. Lets assume that the force applied on the astroid during the collision has a magnitude of Food = 4.4 x 108 N and is pointing slightly into the ground. The trajectory just before the collision IS SHOWN in the following figure. The denoted angle in the figure, is 15° (Do NOT confuse with Problem 3). What is the torque on the asteroid from that force? a. b. C. d. Trajectory of DART just before crash 0= 15° Surface of astroid (part of a circle) Figure 1: The center of this circle is toward the bottom of the page. -3.4 x 10¹0 N-m -9.2 x 10⁹ N-m +9.2 x 109 N-m +3.4 x 10¹0 N-m Problem 32 from page 219 of the book. Problem 5 from page 255 of the book.