Instead of using the ladybug in our experiment, we use a coin that sits on a turntable as the turntable steadily rotates counterclockwise. What force acts in the plane of the turntable? Select one: O a. O b. O c. O d. O e both static and centripetal forces. kinetic friction centripetal force both kinetic and centripetal forces. static friction
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- A coin rests on a record 0.13 m from its center. The record turns on a turntable that rotates at variable speed. The coefficient of static friction between the coin and the record is 0.35. What is the maximum coin speed at which it does not slip?A 3200 kg coaster car rolls along the frictionless track shown. To safely make it through the loop there is a minimum speed the coaster must have at the top of the loop. At this speed the normal force of the track pushing downward on the coaster is zero. The radius of the circular loop is 14.1 meters. At the top of the loop of radius 14.0 m the force of gravity is the only force acting on the coaster. What is the magnitude of the coaster's acceleration at the top of the loop?The figure shows a motorcycle going around a loop of radius R = 6.58 m at constant speed. Find the normal force magnitude on the 70.3-kg rider at the bottom of loop if the normal force at the top of the loop has a magnitude of 60 N. R n = N
- positivephysics An engineer is trying to determine the maximum speed at which a 700kg car can travel around the curve. The coefficient of friction between the wheels and the road is 0.3. Answer questions for the case when the car is traveling at the maximum speed. Number of forces: Force(s) towards center: Are all forces balanced? X What is the magnitude of the turning friction? x X PREMIUM X 3 What is the centripetal net force on the car? X no X What is the car's centripetal acceleration? X X Unit 10: Circular Motion, Complete Problems 1 (In plane of screen for back view) friction At what maximum speed can the car navigate the curve? 4398 Dashboard A Translate Using g = 10m/s² Keep 3+ sig figs Check Answers Desmos Calculator DELL ISTOIS calis Reference 330m Completion: 7% Accuracy: 5% Lesson 1 Can Be Solved :( 2 3 4A roller coaster car is near the bottom of its track, as shown in the figure. At this point, the normal force on the roller coaster is 3.5 times its weight. The speed of the roller coaster is 26 m/s. Determine the radius of the track's curvatureBri is riding a roller coaster and encounters a loop. She is traveling 7.5 m/s at the top of the loop. The top of the loop has a radius of curvature of 3.9 m. Find the force that the loop exerted on Bri's 51 kg body at the top of the loop. Round your final answer to 1 decimal place.
- The cylinder shown is rotating around its axis (the dashed line). If the cylinder is opened from the bottom find the minimum velocity needed for the cylinder to have such that the mass does not fall dovwn. (Radius of cylinder R-4 m, static friction coefficient between block and cylinder wall is u-0.98, M-4 kg). (Use g-9 8 ms 045 3.c5.5 block 5 C71Hello, I have to record the least value of angle and maximum value of angle when block slides down hill based from my data. Would i find coefficient of friction first for each then arctan times the coefficient for the maximum angle? Fs Fk Mass Gravity Angle 0.12 0.09 512g 9.8 m/s2 7.8° 0.21 0.15 512g 9.8 m/s2 12.8 0.27 0.21 512g 9.8 m/s2 16.2 10.33 0.26 512g 9.8 m/s2 19.3d) At what rate does the cylinder spiñn 2 (8.51). In the amusement park ride shown here, the passengers are against the wall of a cylinder that rotates vertically. The diameter of the cylinder is 16 m. The cylinder rotates once every 4.5 sec. a) Draw a force diagram for a 55-kg passenger at the top of the ride. Show the weight and normal force vectors. b) What is the normal force? How many "g's" will the passenger feel? c) Draw a force diagram for a 55-kg passenger at the bottom of the ride. Show the weight and normal force vectors. ) What is the normal force? How many “g's" will the passenger feel? ation e the ride above is going at the minimum speed for passengers not to fall off. peed, what would the normal force be on a passenger at the top? What would th
- Look at the pictureQuestion: A) A car is driving too fast on a flat non-banked curve. The car cannot stay on the road. What path will the car take as it leaves the road? See Image. B) The driver wants to go faster around the same curve mentioned above and not run off the road. He adds sandbags to his car to make it weigh more so that the friction force between the tires and the road will be increased. Will this work? Explain your answer.Needs Complete typed solution with 100 % accuracy.