Draw free-body diagrams for each of the following objects in
uniform circular motion. State
the force(s) providing the centripetal force.
1. The Earth orbiting the Sun
2. A car making a curve on a horizontal road
3. A ball on a string swinging in circles on a horizontal
surface

Draw free-body diagrams for each of the following objects in uniform circular motion. State the force(s)...
Objectives for Lab 3 (Free Body Diagrams, Circular Motion). Prove that forces are vectors and understand the difference between externally applied forces and internal reaction forces. 11 Explore uniform circular motion. Conduct an experiment to understand centripetal force and centripetal acceleration. 21 Procedure for objective # 1. Suspend a block on a string in a vertical position. Let one member of a team pull the block to the right. a) Draw a free body diagram of the block. In which...
draw free body diagrams and answer questions please
Draw the free body diagram for the bob (note that the spring is not attached at this time): bobt Equilibrium Marker 2. How does spinning the bob faster affect the period (time required for 1 full revolution)? The period increases. It takes more for the bob to go around once. The period stays the same. The period decreases. It takes less time for the bob to go around once. to the centripetal...
Explain centripetal force? Think about the difference between uniform and non-uniform circular motion, examples and work done? If a ball of mass 0.5kg does a uniform horizontal circular motion of radius 5.0cm. If the velocity of the mass is 2.0 m/s what will be the tension force, centripetal force and period and frequency?
POD 12-Prob#3) Free body diagrams Sketch appropriate free-body diagrams for the following situations/objects a. A baseball at the instant that it is hit by the bat b. A soccer ball in the air after being headed in to the goal for the winning point in the match c. A bird sitting on a tree branch. d. The International space station in orbit around the earth POD 12-Prob #4) Free Body Diagram with math A block of mass m is resting...
1). In a uniform circular motion, instantaneous velocity is tangent to the circle a) True b) False c) Can's say 2).In a uniform circular motion, acceleration is normal to the velocity and directed toward the center a) True b) False c) Unknown 3). For a particle of mass 'm' moving with a uniform velocity 'v'in a circle of radius 'r', write the expression for centripetal force (Fc)? 4). If a particle rotates in a circle of radius r = 10...
1).In a uniform circular motion, instantaneous velocity is tangent to the circle a) True b) False c) Can's say 2).In a uniform circular motion, acceleration is normal to the velocity and directed toward the center a) True b) False c) Unknown 3). For a particle of mass 'm' moving with a uniform velocity 'v' in a circle of radius 'r', write the expression for centripetal force (Fc)? 4). If a particle rotates in a circle of radius r= 10 cm...
A body rotates with a uniform circular motion. In what situation is the centripetal force greater? Situation A. The body rotates with a radius R, mass m and speed 2V Situation B: The body rotates with a radius R, mass 2m and speed V Situation C: The body rotates with a radius 2R, mass m and speed V a) Situation A b) Situation B c) Situation C d) In all three situations the centripetal force is equal
(b) For an object in uniform circular motion, derive the expression which relates centripetal force to speed. (5 marks] (c) A person swings an object around in a circle on the end of a steel wire, at a constant speed completing one revolution every 1.9 s. The object has a mass of 1.75 kg. The radius of the circle is 2.3 m. (i) Draw a diagram indicating the direction of the following vectors: velocity, centripetal acceleration, centripetal force. [3 marks]...
please do a-f by naming the force that is the source of the
centripetal force and by drawing the free body diagram for the
object of interest... thank you so much!
Problems Uniform Circular Motion in Horizontal Planes 1 For each of the following situations: 1) what force is the source of the centripetal force; 2) draw a complete FBD for the object of interest. The moon orbits the earth (Moon is the b. You drive your car through a...
Draw clear Free Body Diagrams (FBD) for each of the following cases, determine whether object is in equilibrium or not and write the proper scalar equations for relevant force components. a) object of mass M on the frictionless incline (? = 20°). b) object of mass m suspended on the single rope from the ceiling of the elevator accelerating up with acceleration a. c) object mass m moving with constant speed on the rough horizontal surface pushed by the Fapp...