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. Group of answer choices 2.9 m 3.3 m 2.5 m 4.3 m 2.1 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...

At a mail sorting facility, packages slide down a ramp but are stopped part way down...

At a mail sorting facility, packages slide down a ramp but are stopped part way down the ramp so that they can be scanned. While the packages are scanned, they are held in place by a horizontal force from a spring‑loaded arm. Calculate the minimum force that must be applied by this arm to hold a package on the ramp. The ramp is at an angle of ?=31.5∘θ=31.5∘ with the horizontal. The package has a mass of 9.25 kg.9.25 kg....

At a mail sorting facility, packages slide down a ramp but are stopped part way down...

At a mail sorting facility, packages slide down a ramp but are stopped part way down the ramp so that they can be scanned. While the packages are scanned, they are held in place by a horizontal force from a spring‑loaded arm. Calculate the minimum force that must be applied by this arm to hold a package on the ramp. The ramp is at an angle of ?=29.5∘θ=29.5∘ with the horizontal. The package has a mass of 8.25 kg.8.25 kg....

A 1.2-kg block, travelling at 14.2-m/s, encounters a ramp with a coefficient of kinetic friction of...

A 1.2-kg block, travelling at 14.2-m/s, encounters a ramp with a coefficient of kinetic friction of 0.15. The ramp is tilted 31° above the horizontal. Use work and energy arguments to answer the following. How far along the ramp does the block travel? Assume the coefficient of static friction is very small and the block slides back down the ramp. What is its speed at the bottom?

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 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...

Block B of 40.0 kg is sitting at a frictionless horizontal floor at a height h1...

Block B of 40.0 kg is sitting at a frictionless horizontal floor at a height h1 = 40.0 m above the ground, when a second 100.0 kg block (block A), moving at an unknown speed hits and sticks to block B. After the collision, the combination slides down a hill which has friction, with a speed of 2.00 m/s. A. What was the speed of the block A before the collision? B. At the end of the path, a very...

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...