Physics Lab Report

INTRODUCTIONResearch Question- Will the caprice of the objects always be conserved in a frictionless situation?Background Information-To fully assure the procedure and the results of the experiments, one must fully understand the globe of passion and pulsation. The dry solid definition of the linear momentum (momentum) of a body is specify as the product of its jalopy and velocity. The numeral par of momentum is P=m*v, where P= neural impulse, m=Mass of the object, and v=Velocity of the object. caprice erect be defined as the product of the median(a) pelf force and the time interval over which it acts. The mathematical equation of impulse isAnother thing that one must fill in is the impulse momentum theorem. The impulse momentum theorem says that impulse is relate to budge momentum. Another word that one must be well-known(prenominal) with is the term smasher. Collision, according to Mr. Ladbrook?s PowerPoint, can be defined as when two objects exist in the sa me quadruplet at the same time. There are 2 types of strikings, expandable and inelastic. Elastic collision can be defined as a collision in which the object rebound without wholly generation of heat energy or without any deformation. (From Mr. Ladbrook?s PowerPoint) Inelastic collision can be defined as a collision in which heat may be produced in the collision or the object deforms, a collision is perfectly inelastic if the objects stick together. (From Mr. Ladbrook?s PowerPoint) One must also be familiar with the Law of Conservation of pulse in fix to fully understand the experiment. The law fundamentally states that the momentum of any closed system with no describe in external force does not change. (From Mr. Ladbrook?s PowerPoint)Equations Used-P=Momentumm=Massv=VelocityF=Forcet= turn in timep=Change in momentumF=Forcet=Change in timeVelocity= keep/TimeHypothesis- I hypothesize that momentum will be keep in all situations. I predict that in the root part, ground s 1, of the... ! If you want to get a full essay, order it on our website: OrderEssay.net

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