I filled a bucket with water and am swinging it around in a vertical circle so...
HELP ME!! You are swinging a bucket containing 5 kg of water in a vertical circle with a radius of 0.4 m. What is the minimum speed that the bucket must have at the top of the circle to prevent the water from spilling out of the bucket? O 0 m/s 1.98 m/s O 3.92 m/s O 4.9 m/s
can someone show me how to do every single procedure. thank you so much ! 3. Wanting to show your friends a cool demonstration that seems to break the laws of physics, you swing a pail of water in a vertical circle. You swing the bucket a couple times, no water comes out at the top, and complete each circle in 1.5 seconds. If your arm length is 60 cm and the bucket/water have a mass of 1.00 kg, determine...
Constants Periodic Table A bucket of mass 2.00 kg is whirled in a vertical circle of radius 1.20 m . At the lowest point of its motion the tension in the rope supporting the bucket is 26.0 N. Part A Find the speed of the bucket. Hint: draw a free-body diagram of the bucket at the bottom of the motion. R O a ? IVO AQ v = 4.57 Submit Previous Answers Request Answer X Incorrect; Try Again; 4 attempts...
Problem 5 A man is swinging an object, attached to a string, in a circle over his head (see the sketches). Side view Top view (a) Draw a free-body diagram for the object. Notice the string is not drawn horizontal in the "side view" diagram above. Why is that? (b) If the mass of the object is 1 kg, what is the vertical component of the tension? (c) If the object makes 3 turns per second, and the radius of...
A bucket of water is spun in a vertical circle on a 145 cm rope so that the water does not fall out. What is the minimum speed it must travel?
The around the world yo-yo trick is completed when you twirl a yo-yo in a vertical circle. If the yo-yo was in uniform circular motion, compare the force of tension at the top of the circle to the force of tension at the bottom of the circle. Hint: Drawing a free body diagram will be helpful.
UUD612310001 <CH 05 HW Problem 5.44 rain A bucket of mass 2.00 kg is whirled in a vertical circle of radius 1.20 m At the lowest point of its motion the tension in the rope supporting the bucket is 260N Constant Find the speed of the bucket Hint: draw a free body diagram of the bucket at the bottom of the motion V AC mo? m/s Submit Request Answer Part B How fast must the bucket move at the top...
A rollercoaster cart with a mass of 11 kg is travelling around a vertical loop (circle) with a radius of 8 meters. At the top, it's traveling at the minimum speed needed so that it remains in contact with the track. If at some short time later it is at the side of the loop (halfway between the top and bottom), what is the normal force on the cart, in Newtons, if it loses 147 Joules of work to non-conservative...
Suppose you swing a ball of mass m in a vertical circle on a string of length L. As you probably know from experience, there is a minimum angular velocity ωmin you must maintain if you want the ball to complete the full circle without the string going slack at the top. Find an expression for ωmin in terms of g and L . Evaluate ωmin in rpm for a 65 g ball tied to a 1.4-m-long string.
At an amusement park, a car of mass m rolls without friction around a track as shown. The car starts from rest at point A, a height h = 3R above the bottom of the loop (R is the radius of the loop). Treat the car as a point-like particle. (a) Draw the free body diagram for the car and find the car’s kinetic energy and normal force acting on the car at the top of the loop (point B)....