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Tarzan (MT = 85.0 kg) swings down from the cliff and has a speed of 10.5...
Tarzan (mt = 90.0 kg) swings down from the cliff and has a speed of 10.5 m/s just before he impacts Jane (mj = 55.0 kg). Answer the two questions below, using three significant digits. Part A: Suppose the Tarzan is able to grab Jane, and the two of them swing together as a single unit. What is the speed of the pair (up)? m/s Part B: Suppose that Tarzan is not fast enough to grab Jane secure, and instead,...
Tarzan (mt = 90.0 kg) swings down from the cliff and has a speed of 11.0 m/s just before he impacts Jane (mg = 55.0 kg). Answer the two questions below, using three significant digits. Part A: Suppose the Tarzan is able to grab Jane, and the two of them swing together as a single unit. What is the speed of the pair (v)? m/s Up Part B: Suppose that Tarzan is not fast enough to grab Jane secure, and...
Tarzan (mt = 90.0 kg) swings down from the cliff and has a speed of 11.0 m/s just before he impacts Jane (m: = 55.0 kg). Answer the two questions below, using three significant digits. Part A: Suppose the Tarzan is able to grab Jane, and the two of them swing together as a single unit. What is the speed of the pair ()? m/s Part B: Suppose that Tarzan is not fast enough to grab Jane secure, and instead,...
Tarzan (mı = 90.0 kg) swings down from the cliff and has a speed of 11.0 m/s just before he impacts Jane (mj = 60.0 kg). Answer the two questions below, using three significant digits. Part A: Suppose the Tarzan is able to grab Jane, and the two of them swing together as a single unit. What is the speed of the pair (Up)? m/s Part B: Suppose that Tarzan is not fast enough to grab Jane secure, and instead,...
Tarzan(m_T = 90.0 kg) swings down from the cliff and has a speed of 11.0 m/s just before he impacts Jane (m_J = 55.0 kg). A Suppose the Tarzan is able to grab Jane, and the two of them swing together as a single unit. What is the speed of the pair (v_p)? Suppose that Tarzan isn't fast enough to grab Jane secure, and instead, he bumps her, sending her forward. He has a forward speed of 2.05 m/s. What...
Tarzan (mı = 90.0 kg) is perched on a cliff 16.0 m above Jane. Answer the three questions below, using three significant figures. Part A: What is the value of Tarzan's speed (Vr) just as he gets down to Jane's level? VT = m/s Part B: If Tarzan is actually moving at 10.5 m/s, what fraction (%-loss) of kinetic energy did he lose due to air resistance? %-loss- % Part C: If Tarzan's mass were 40 % greater, how would...
Tarzan (mr = 95.0 kg) is perched on a cliff 16.0 m above Jane. Answer the three questions below, using three significant figures. Part A: What is the value of Tarzan's speed (Vr) just as he gets down to Jane's level? VT = m/s Part B: If Tarzan is actually moving at 110 m/s, what fraction (loss) of kinetic energy did he lose due to air resistance? Seloss Part If Tarzan's mass were 40 greater, how would that allect the...
Tarzan (my = 90.0 kg) is perched on a cliff 16.0 m above Jane. Answer the three questions below, using three significant figures Part A: What is the value of Tarzan's speed (Vr) just as he gets down to Jane's level? VY Part B: If Tarzan is actually moving at 10.5 m/s, what fraction (%-loss) of kinetic energy did he lose due to air resistance? 5-loss- Part C: If Tarzan's mass were 40 % greater, how would that affect the...
Tarzan (my 95.0 kg) is perched on a cliff 14.0 m above Jane. Answer the three questions below, using three significant figures. Part A: What is the value of Tarzan's speed (Vr) just as he gets down to Jane's level? VT = m/s Part B: If Tarzan is actually moving at 11.0 m/s, what fraction (%-loss) of kinetic energy did he lose due to air resistance? %-loss = Part C: If Tarzan's mass were 40 % greater, how would that...
In a Broadway performance, a 75.5-kg actor swings down from a height of h = 4.50 m. a. What is his speed when he reaches the bottom of the arc? m/s b. At the bottom of his arc, he picks up his 55.0-kg costar in an inelastic collision. What is their speed after the collision? m/s c. What maximum height do they reach after their upward swing? m