A uniform bar of mass M and length L is suspended on a frictionless hinge. A horizontally launched blob of clay of mass m strikes the bottom end of the bar and gets stuck to it. After that, the bar swings upward. What is the minimum speed v of the blob of clay before impact that would enable the rod to swing full circle?
Q: A thin uniform bar lies on a frictionless surface and is free to move in any way on the surface. Its…
A:
Q: A ring (mass 2 M, radius 2 R) rotates in a CCW direction with an initial angular speed 1 ω. A disk…
A:
Q: A solid block in the shape of a cube is sliding on a horizontal table with negligible friction at a…
A: Given that solid cube move with velocity (v) and strike the tip. After that cube starts rotating…
Q: 2.50 kg particle that is moving horizontally over a floor with velocity (-3.00 m/s)ˆj undergoes a…
A: The total angular momentum of the system must be conserved. The position vector of the collision is…
Q: A solid block in the shape of a cube is sliding on a horizontal table with negligible friction at a…
A: Moment of inertia of the block about the lip is, I0=I+Mr2 r is the distance…
Q: With a speed of v(initial), a perfectly rounded mass ball as known as “m” is moving towards the left…
A: Given Data: Small ball mass →m Disc mass →M Disc radius →R ⇒Disc is pivoted about center
Q: A solid block in the shape of a cube is sliding on a horizontal table with negligible friction at a…
A:
Q: A 90 kg man stands in a very strong wind moving at 14 m/s at torso height. As you know, he will need…
A: Given, The mass of the man is, M=90 kg. The speed of the wind is, v=14 m/s.…
Q: Masses A (1.00 kg) and B (2.00 kg) are attached to opposite ends of a light rod 1.00 m long that is…
A:
Q: A bowling ball rolls 1.1 m up a ramp without slipping. It has an initial speed of its center of mass…
A: acm = mgsin(θ)m+(Icmr2) Icm=25mr2 g=9.8 m/s^2 acm = mgsin(29o…
Q: Monica stands at the edge of a circular platform that is slowly rotating on a frictionless axle. She…
A: Answer: The Motion of the platform as Monica makes her trip is given as below: while in the pike…
Q: 7. A 500 gram meter stick has a center of mass at the 50 cm mark. Using two fingers, one at the 20…
A: 7) Given the mass of the stick is m = 500 g = 0.5 kg center of mass of the stick is at x = 50 cm and…
Q: M Consider the figure above.... A clay block has a mass of 2.6 kg. It rests upon on a friction-less,…
A:
Q: M Consider the figure above... A clay block has a mass of 1.0 kg. It rests upon on a friction-less,…
A:
Q: A bug flying horizontally at 1.0 m/s collides and sticks to the end of a uniform stick hanging…
A: Given values, speed of bug before collision, v = 1 m/s.
Q: P. After the collision the two disks stick together. Determine the final angular тотеntum of the…
A: Final angular momentum of the system with respect to P is zero. described below:
Q: Two 3.90 kg balls are attached to the ends of a thin rod of length 29.0 cm and negligible mass. The…
A:
Q: Two 3.90 kg balls are attached to the ends of a thin rod of length 29.0 cm and negligible mass. The…
A: Mass of each ball: The length of the rod: The mass of the putty: Speed of putty just before the…
Q: A rod of mass M = 3.35 kg and length L can rotate about a hinge at its left end and is initially at…
A: a)The required initial angular momentum is,
Q: A 0.22-kg gerbil runs in place with a linear speed of 0.40 m/s on an exercise wheel that is shaped…
A: m=5.5×10-3 kgv=0.4 m/sl=9×10-2 m And,
Q: A 2.4 m long rod of mass m1 = 17.0 kg, is supported on a knife edge at its midpoint. A ball of clay…
A: Calculate the initial velocity. V = Sqrt(2gh) = Sqrt(2*9.81*1.4) = 5.24 m/s
Q: smaller greater it has a smaller density more of its mass is closer to the rotation axis less…
A: Moment of inertia: The moment of inertia of an object about an axis can be defined as the product of…
Q: A 150 gram rubber ball travel horizontally at 5m/s strikes the edge of a 50cm long 100 gram vertical…
A: Given data: The mass, m1=150 g=0.15 kg. The mass, m2=100 g=0.1 kg. The length is l=50 cm The…
Q: A circular, solid disc of radius R and mass 2M is rotating with angular velocity w. A second disc of…
A: Let m1 and m2, and I1 and I2 denote the masses and moments of inertia of the two discs. Let I denote…
Q: Hello, here is my question A projectile of mass m = 8.00 grams is fired horizontally at 135 m/s…
A: Given, A projectile of mass m =8.00 grams and fired with horizontal speed 135 m/s and collide with…
Q: mable to get to the other me his difficulty, he throw
A: Given: Mass of man is 750 N Mass of textbook is 1.6 kg Radius of frozen pond is 10 m speed is 7 m/s
Q: A uniform chain of mass m and length I is lying on a slippery table. When one quarter of its length…
A: hi please find the solution below. option c or option 3 is correct.
Q: arzan and Jane in the 21st Century. Tarzan has foolishly gotten himself into another scrape with the…
A: Given:- The mass of the jane is m = 60 kg at a height of 5.50 m in the tree The mass of the vine is…
Q: A ring (mass M) and disk (mass M) with radii R rotate in opposite directions. The ring rotates…
A:
Q: A 4.20 kg cylindrical rod of length 2.00 m is suspended from a horizontal bar so it is free to swing…
A:
Q: A 0.5-kg stone slides down a frictionless bowl, starting from rest at the rim. The bowl itself is a…
A: Given: mass of stone m = 0.5 kg. radius of hemisphere bowl R = 0.1 m.
Q: A diver (m = 60 kg) jumps from a diving board. At takeoff, his angular momentum about the transverse…
A: The objective of the question is to find the angular velocity of the diver after he tucks his body…
Q: A point mass m1 = 0.020 kg located at the top corner of a smooth hemispherical bowl m, R. of radius…
A: Given, Mass, m1=0.020 kg, Radius, R=0.450 m, and Mass, m2=0.010 kg.
Q: A solid cylinder of mass m = 1kg, initially at rest, starts to roll down a rough surface inclined at…
A: Given, Mass of the solid cylinder m=1 kg Mass of the square block M=2 kg d=1m angle θ=30°…
Q: Problem 5: A rod of mass M = 2.6 kg and length L can rotate about a hinge at its left end and is…
A: Here we have a simple application of conservation of angular momentum. we will take the cosine…
Q: Consider the frictionless marble-curve track system shown. Marble A is 100.0 g while marble B is…
A: The mass of marble A, mA=100.0 g = 100.0 × 10-3 kg The mass of marble B, mB=50.0 g = 50.0×10-3 kg…
Step by step
Solved in 5 steps with 1 images
- A rod of mass M and length L can rotate about a hinge at its left end and is initially at rest. A putty ball of mass m, moving with speed V, strikes the rod at angle θ from the normal and sticks to the rod after the collision. What is the angular speed ωf of the system immediately after the collision, in terms of system parameters and I?An isolated system consists of a single object, which initially moves without friction at velocity ux along a horizontal x-axis. After an internal explosion, the object splits into two parts, A and B. The figure shows the masses and speeds of these parts immediately after the explosion. None of these objects rotates. 1.50 m s-¹ 2.00 kg A Final kinetic energy initial kinetic energy 3.50 m s-¹ - 3.00 kg What is the difference between the total final kinetic energy of A and B and the initial kinetic energy of whole object? Give you answer by entering a number, specified to an appropriate number of significant figures, into the empty box. B J.Consider three identical ramps with a height of 1 m. At the top of one ramp is a solid sphere. The second ramp has a hoop, and the third ramp has a solid cylinder. Assume each object has the same mass and radius. If the three objects are released simultaneously, in what order will they reach the end of their respective ramp? Rank them from first to last.
- A gymnast with a mass of 55 kg flipped in the air and achieved a maximum angular velocity of 445 degrees/sec just before landing from the flip. a) What is the magnitude of the angular impulse in kg*m2/s exerted by the floor on the gymnast when they stuck the landing and came to a complete stop, if they had a radius of gyration of 0.75 meters throughout the landing and their initial angular velocity just as they hit the floor was equal to the maximum angular velocity of 445 degrees/sec?You are advising a fellow student who wants to learn to perform multiple flips on the trampoline. You have him bounce vertically as high as he can, keeping his body perfectly straight and vertical. You determine that he can raise his center of mass by a distance of h = 6.00 m above its level when he initiates the jump. He can do a single flip by bouncing gently, throwing his arms forward over his head, and tucking his body. You use your smartphone to make a video of him doing a single flip. Based on analysis of this video, you determine that his moment of inertia is Istraight = 26.7 kg . m2 when his body is straight and Ituck = 5.62 kg . m2 in the tuck position. You suggest that he keep his body in the straight position for Δt, = 0.400 s after leaving the trampoline surface and then immediately go into a tuckposition. As he lands, he should straighten his body out Δt, = 0.400 s before he lands. From analysis of the video recording, you determine that throwing his arms forward causes…A barbell consists of two small balls, each with mass m at the ends of a very low mass rod of length d. The barbell is mounted on the end of a low-mass rigid rod of length b. This apparatus is started in such a way that while the rod rotates clockwise with angular speed ω1, the barbell rotates clockwise about its center with an angular speed ω2.
- A 3.0 kg cylinder falls from rest through a distance of 6.0 m in an evacuated tube near the surface of the earth. What is its spee after the cylinder has fallen the 6.0 m distance?Kathrine lets go of a cube of mass of m = 5 kilograms on her physics demo device she created. Her cube goes down a super smooth slide surface that has a height vertical distance of h=85 cm. At the end of the slide, her cube crashes into and sticks to the lower end of a vertical pole that has a mass M=10.5 kg and length 1-2.00m. Right after the crash, the pole pivots about a hinge point near its upper end through an angle (theta) before it stops for a moment. See the image given below to visualize Katherines system. You are tasked with Figuring out the following three things The speed of her cube just before it hits the pole The angular speed of the pole just after the crash The angle (theta) through which the pole pivots a. b. C. 0 Kathrine and her deviceA skateboard of mass m rests on the top of a hemispheric dome of radius R. After giving the skateboard a small kick, imparting an initial speed of vo, it begins rolling down the dome. Let the angle 0 indicate the location of the skateboard as it rolls down the surface of the dome. R 1. Eventually, the skateboard will lose contact with the dome. Given m, R, vo, and g, find the angle 0. at which the skateboard loses contact. Express your answer symbolically (i.e. without numbers). Check your work. Suppose you choose m = 1.5 kg, vo = g = 9.81 m/s. In this case, your answer should evaluate to 0. = 34.2°. 4.5 m/s, R = 4.3 m, and 2. Given m, R, and g, determine the range of speeds for which it is impossible to remain in contact with the wall at all.
- A diver (m = 60 kg) jumps from a diving board. At takeoff, his angular momentum about the transverse axis is 30 kg⋅m2/s. His radius of gyration about the transverse axis is 0.5 m at this instant. During the dive, he tucks and reduces his radius of gyrations about the transverse axis to 0.2 m. After he tucks the body, what is his angular velocity about the transverse axis?A thin rod with a length of 4.0 m and a mass of 4.2 kg is initially at rest. It is capable of spinning around a frictionless axle that goes through the top of the rod. A 2.5 kg mass of clay collides perfectly idealistically with the bottom of the rod. The clay was traveling perfectly horizontally with a speed of 12 m/s before the collision. How fast will the rod with the clay attached to it rotate around the axle in radians per second? The only external force on the clay/rod system come from the axle, which exerts no torque about itself.Two 3.50 kg balls are attached to the ends of a thin rod of length 36.0 cm and negligible mass. The rod is free to rotate in a vertical plane without friction about a horizontal axis through its center. With the rod initially horizontal (the figure), a 42.0 g wad of wet putty drops onto one of the balls, hitting it with a speed of 3.25 m/s and then sticking to it. (a) What is the angular speed of the system just after the putty wad hits? (b) What is the ratio of the kinetic energy of the system after the collision to that of the putty wad just before? (c) Through what angle (deg) will the system rotate before it momentarily stops? Putty wad Rotation axis