No friction m1 A block of mass m1 = 3.4 kg is on a plane inclined at an angle of 0 = 65 degrees away from vertical %3D (see the diagram above). The block begins from rest and then slides a distance 2.7 meters along a surface with negligible friction. It then reaches a long section of the plane with a coefficient of kinetic friction HK = 0.77, as shown by the red and black region in the diagram above. Let g = 9.8 %3D meters per second squared. Find the total distance (in meters) that the block slid along the inclined plane before coming to a stop (this is the length of the region without friction plus the distance that the block slid along the region with kinetic friction).

Hi, can you please answer this

Transcribed Image Text:

No friction m1 A block of mass m1 = 3.4 kg is on a plane inclined at an angle of 0 = 65 degrees away from vertical (see the diagram above). The block begins from rest and then slides a distance 2.7 meters along a surface with negligible friction. It then reaches a long section of the plane with a coefficient of kinetic friction UK = 0.77, as shown by the red and black region in the diagram above. Let g = 9.8 meters per second squared. Find the total distance (in meters) that the block slid along the inclined plane before coming to a stop (this is the length of the region without friction plus the distance that the block slid along the region with kinetic friction).