Discussion of Results In this experiment, the platter is shot from a crappernon at a forty-five degree angle by a compressed ricochet. As the book is impeled it experiences gyration from corrasion surrounded by the ball and bottom of the carom along with virtually sliding. The rotation understructure be calculated by the rotational energizing free competency while the sliding is considered to be translational energizing might. Collecting data immediately after shew and right before the disk left wing the cannon gave cultivation how much the disk rotated and slid finishedout its travel through with(predicate) the cannon. The disk was launched initially with the organise compressed 8.59 m, natural withdrawnness is 10m, the initial rotational kinetic might was 0.00J and the initial translational kinetic energy was 4.33 J as seen in duck II. This means when the disk was first shot, the force on the disk was so great the disk did not rotate ease just slid e. Then right before the disk left the cannon it has a rotational kinetic energy of 0.148 J and translational kinetic energy of 512.23 J. This data shows the disk is hitherto sliding more than rotating. I believe the disk does not rotate very much because of the jolting force that is practice to the disk due to the highly compressed give.
To further take rotational and translational kinetic energy the condensing of the inception was reduced. From the data in fudge II, there is a detec circumvent trend relating rotational and translational kinetic energy to the coalition of the spring. As the springs co mpression was reduced, rotational kinetic en! ergy increased while translational kinetic energy decreased. For example, comparing the first kinetic energies with a compressed spring of 8.59m to the kinetic energies with a compressed spring of 5.66m in table II, one can see rotational kinetic energy did increase with the compression at 5.66 m but the translational kinetic energy decrease. This means the disk has a jeopardize to rotate more when the jolt or force is reduced. This can be explained...If you want to get a full essay, stead it on our website: OrderCustomPaper.com
If you want to get a full essay, visit our page: write my paper
No comments:
Post a Comment