Tarzan (mt = 90.0 kg) swings down from the cliff and has a speed of 11.0...
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(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 (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 (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 (MT = 85.0 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 Up)? m/s up = Part B: Suppose that Tarzan is not fast enough to grab Jane secure, and...
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 (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...
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, who weighs 645 N, swings from a cliff at the end of a convenient vine that is 19 m long (see the figure). From the top of the cliff to the bottom of the swing, he descends by 2.6 m. The vine will break if the force on it exceeds 1150 N. What would the greatest force on the vine be during the swing?