After you slide down frictionless ramp B you land on horizontal ground. The coefficient of friction...

After you slide down frictionless ramp B you land on horizontal ground. The coefficient of friction...

After you slide down frictionless ramp B you land on horizontal ground. The coefficient of friction between you and the ground is 0.7. The vertical drop is 3 m. How far do you slide on the ground before you stop? Again, your mass is 70 kg. Group of answer choices 3.3 m 2.1 m 4.3 m 2.5 m 2.9 m

After you slide down frictionless ramp B you land on horizontal ground. The coefficient of friction...

After you slide down frictionless ramp B you land on horizontal ground. The coefficient of friction between you and the ground is 0.7. The vertical drop is 3 m. How far do you slide on the ground before you stop? Again, your mass is 70 kg. 2.9 m 2.5 m 4.3 m 2.1 m 3.3 m

A block of mass 19.6 kg starts at rest at the top of a frictionless ramp...

A block of mass 19.6 kg starts at rest at the top of a frictionless ramp that makes an angle of 36.2 ^\circ ∘ below the horizontal. After it slides without friction down the entire 2.89 m length of the ramp, it begins to slide horizontally along a rough concrete surface with a coefficient of kinetic friction of \mu_kμ k = 0.503 until it slows to a complete stop. How far does the block slide horizontally along the concrete before...

A block (4 kg) starts from rest and slides down a frictionless ramp #1 of height...

A block (4 kg) starts from rest and slides down a frictionless ramp #1 of height 9 m. The block then slides a horizontal distance of 1 m on a rough surface with kinetic coefficient of friction μk = 0.5. Next, it slides back up another frictionless ramp #2. Find the following numerical energy values: Initial gravitational potential energy on Ramp #1: U1G =  J Tries 0/3 Kinetic energy at bottom of Ramp #1 before traveling across the rough surface: K...

A.Your mass m=11 kg block slides down a frictionless ramp having angle theta=0.51 radians to the...

A.Your mass m=11 kg block slides down a frictionless ramp having angle theta=0.51 radians to the horizontal. After sliding down the ramp a distance L=16 m the block encounters a spring of spring constant k=551 N/m. The spring is parallel to the ramp. Use g=9.74 m/s/s for the acceleration of gravity. Calculate the maximum compression of the spring, in meters. Include labeled diagrams showing the initial and final configurations, and a discussion of the solution method based on energy conservation....

A) A skier starts down a 29 ∘ slope. After a vertical drop of 34 m , the slope temporarily...

A) A skier starts down a 29 ∘ slope. After a vertical drop of 34 m , the slope temporarily levels out and then drops at 23 ∘ an additional 38 m vertically before leveling out again. The coefficient of kinetic friction on both slopes is 0.11, the level stretches is frictionless. What is the skier's speed on the higher level stretch? What is the skier's speed on the lower level stretch? b) What is the current in a 45 kΩ resistor with 150 Vacross it? c) A 14 kg projectile is launched...

A block of mass m = 3.3 kg is on an inclined plane with a coefficient...

A block of mass m = 3.3 kg is on an inclined plane with a coefficient of friction μ1 = 0.39, at an initial height h = 0.53 m above the ground. The plane is inclined at an angle θ = 44°. The block is then compressed against a spring a distance Δx = 0.13 m from its equilibrium point (the spring has a spring constant of k1 = 35 N/m) and released. At the bottom of the inclined plane...

Two boxes are stacked, with box B placed on top of box A. If box A...

Two boxes are stacked, with box B placed on top of box A. If box A is pushed such that both boxes move with a decreasing speed, is there any friction on either box? (a) Kinetic friction on box A and no friction on box B (b) Kinetic friction on box A and static friction on box B (c) Kinetic friction on box A and kinetic friction on box B (d) Static friction on box A and kinetic friction on...

ch 6 1: It is generally a good idea to gain an understanding of the "size"...

ch 6 1: It is generally a good idea to gain an understanding of the "size" of units. Consider the objects and calculate the kinetic energy of each one. A ladybug weighing 37.3 mg flies by your head at 3.83 km/h . ×10 J A 7.15 kg bowling ball slides (not rolls) down an alley at 17.5 km/h . J A car weighing 1260 kg moves at a speed of 49.5 km/h. 5: The graph shows the ?-directed force ??...

Delta airlines case study Global strategy. Describe the current global strategy and provide evidence about how...

Delta airlines case study Global strategy. Describe the current global strategy and provide evidence about how the firms resources incompetencies support the given pressures regarding costs and local responsiveness. Describe entry modes have they usually used, and whether they are appropriate for the given strategy. Any key issues in their global strategy? casestudy: Atlanta, June 17, 2014. Sea of Delta employees and their families swarmed between food trucks, amusement park booths, and entertainment venues that were scattered throughout what would...