Which of the following gives the nearest value for the time it takes for the block to reach the maximum inclined distance after it leaves the block?Hint: What is the velocity of the block when it reaches the maximum inclined distance?a. 0.08sb. 0.1sc. 0.06sd. 0.2s An 8-kg block slides 150mm from rest down the 25-degree plane. The spring has a value of k = 1800N/m. The coefficient of friction is 0.20.8 kg7777777150 mm25° Draw Free BodyDiagram of the Blockat Initial ConditionQ1: Calculate thefrictional force fromthe Free BodyDiagramQ2: Find theacceleration atdescend of blockusing Newton'sSecond LawQ3: Find thevelocity of the blockat initial contact withthe spring usingUniformAcceleratedMotionQ4: Find the time ittakes for the initialcontact usingImpulse-MomentumQ4: Find the time ittakes for the initialcontact usingUniformAcceleratedMotionStartQ5: Calculate for themaximum deflectionof the spring usingWork-EnergyMethodQ8: Calculate thevelocity after leavingthe spring usingWork-EnergyMethodQ7: Calculate for themaximum inclineddistance from thespring after it leavesthe spring usingWork-EnergyMethodQ6: Calculate themaximum springforce using Hooke'sLaw (F= kx)Q10: Calculate thetime it takes to reachthe maximumdistance after itleaves the springusingImpulse-MomentunQ7: Calculate for themaximum inclineddistance from thespring after it leavesthe spring usingUniform AcceleratedMotionQ10: Calculate thetime it takes to reachthe maximumdistance after itleaves the springusing UniformAccelerated MotionDraw theFree BodyDiagram ofthe Blockafter leavingthe springQ9: Find theacceleration afterleaving the spring ofblock usingNewton's SecondLaw

We are given mass of block. We are also given angle of inclination. We are also given coefficient of…

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Which of the following gives the nearest value for the time it takes for the block to reach the maximum inclined distance after it leaves the block? Hint: What is the velocity of the block when it reaches the maximum inclined distance? a. 0.08s b. 0.1s c. 0.06s d. 0.2s