A student standing on a stationary skateboard tosses a textbook with a mass of mb = 1.55 kg to a friend standing in front of him. The student and the skateboard have a combined mass of mc = 95 kg and the book leaves his hand at a velocity of 3.69 m/s at an angle of 34° with respect to the horizontal.Before: 61 kg moving at 0 m/s has a total momentum of 0 kg.m/s After: 1 kg moving at 20 m/s plus 60 kg moving at v m/s must therefore also have a total momentum of 0 kg.m/s (conservation of momentum) Therefore 60*v+1*20 = 0 kg.m/s Therefore v =(10%) Problem 5: A student standing on a stationary skateboard tosses a textbook with a mass of mt,-1.35 kg to a friend standing in front of him. The student and the skateboard have a combined mass of mc72 kg and the book leaves his hand at a velocity of vb =223 m/s at an angle of 39"with respect to the horizontal Randomized Variables mp 135 kgA student standing on a stationary skateboard tosses a textbook with a mass of mb = 1.25 kg to a friend standing in front of him. The student and the skateboard have a combined mass of mc = 82 kg and the book leaves his hand at a velocity of 2.8 m/s at an angle of 43° with respect to the horizontal.A student standing on a stationary skateboard tosses a textbook with a mass ofmb=1.55kg to a friend standing in front of him. The student and the skateboard have a combined mass ofmc=99kg and the book leaves his hand at a velocity ofvb=2.5m/s at an angle of39° with respect to the horizontal.
A boy and the skateboard on which he is standing have a
A student standing on a stationary skateboard tosses a textbook with a mass of mb = 1.55 kg to friend standing in front of him. The student and skateboard have a combined mass of mc = 95 kg and the book leaves his hand at a velocity of 3.69 m/s at an angle of 34° with respect to the horizontal. Randomized Variables. mb = 1.55 kg. mc = 95 kgA student standing on a stationary skateboard tosses a textbook with a mass of m i = 1.3 k g to a friend standing in f... View Answer A Block 1 having mass m1 = 2.10 kg, moves with speed of v1Q: A student standing on a stationary skateboard tosses a textbook with a mass of mb = 1.2 kg to a frie... A: Given Mass of the book mb = 1.2 kg Mass of the student and the skateboard mc = 81 kg Velocity of the...A student standing on a stationary skateboard tosses a textbook with a mass of mb = 1.55 kg to a friend standing in front of him. The student and the skateboard have a combined mass of mc = 127 kg and the book leaves his hand at a velocity of 3.6 m/s at an angle of 33° with respect to the horizontal.
Solved > Question (10%) Problem 5: A student standing on
33 minutes ago A student standing on a stationary skateboard tosses a textbook with a mass of mb = 1.35 kg to a friend standing in front of him. The student and the The student and the skateboard have a combined mass of mc = 97 kg and the book leaves his hand at a velocity of vb = 4.61 m/s at an angle of 28° with respect to the horizontal.A student standing on a stationary skateboard tosses a textbook, mt = 1.05 kg, to a friend standing in front of him. The student and the skateboard have a combined mass of mc = 104 kg and the book leaves his hand at a velocity of 2.25 m/s at and angle of 22 degrees with respect to the horizontal.Issuu is a digital publishing platform that makes it simple to publish magazines, catalogs, newspapers, books, and more online. Easily share your publications and get them in front of Issuu'sA student standing on a stationary skateboard tosses a textbook with a mass of mb = 1.55 kg to friend standing in front of him. The student and skateboard have a combined mass of mc = 95 kg and the book leaves his hand at a velocity of 3.69 m/s at an angle of 34° with respect to the horizontal.A student standing on a stationary skateboard tosses a textbook with a mass of m b = 1.3 kg to a friend standing in front of him. The student and the skateboard have a combined mass of m c = 103 kg and the book leaves his hand at a velocity of v b = 2.98 m/s at an angle of 41° with respect to the horizontal. (a) Write an expression for the magnitude of the velocity of the student, v s, after
Momentum, P,
P=mv
The horizontal part of pace,
vx=|v⇀| cos θ
mb = 1.Three kg, mc = 103 kg, ms = 103 - 1.3 = 101.7kg, vb = 2.98 m/s, θ = 41°
a)
Conservation of momentum horizontally:
Pi = Pf
The momentum of the system to begin with is 0.
Therefore, the net momentum of the gadget after the book is thrown is 0.
Ps = Pb
After throwing the e book, the student has the rate, vs
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