(17%) Problem 2: You give a crate ofrnass m = 1.00 kg an initial speed ofvz- = 4.00 mls up an incline of 9 = 15. The crate then slides along the incline, reaches a spring of spring constant k = 62 me , and compresses the spring by As 2 15.0 cm before stopping. w Utllccxpcrttaxnm @theexperttacom - tracking 1d SO?5-81?3--11-82C2-_1 3-516. In accordance \\Tllh Expert TA\": Terms of Sen'lce. copying this information to any solutions sharing website is strictly forbidden. Doing so may result in termination of your Expert TAAccOLmt. E $3 25% Part (a) What is the distance d in meters along the incline that the crate slides, assuming there is no friction? of = 1.144? d: 1.145 X Attempts Remain E A 25% Part (b) What distance .115, in meters, along the incline had the crate moved when it just touched the spring? E q? 25% Part (c) If there were friction between the crate and incline, which of the options below would be the correct equation for the kinetic friction force? j}; = #mgccs J Correct! D 8 25% Part (Ii) If there were friction between the crate and incline, what coefficient of kinetic friction would stop the crate after it travels d5 [just before it compresses the spring)? _ Grade Summary nut _ i Deductions 0% Potential 100%