A boat with initial speed v0 is launched on a lake. The boat is slowed by...

A boat with initial speed v0 is launched on a lake. The boat is slowed by...

A boat with initial speed v0 is launched on a lake. The boat is slowed by the water by a force F = −αe^(βv). (a) Find an expression for the speed v(t). (b) Find the time and (c) distance for the boat to stop.

A boat of mass m is pushed away from the berth with the initial speed v0....

A boat of mass m is pushed away from the berth with the initial speed v0. Suppose that the drag force f is proportional to the velocity of the boat; the second Newton’s law implies ma = −kv where v is the velocity of the boat, a is acceleration, k > 0 is the drag coeffinient. (a) Find the velocity of the boat as a function of time t. Your solution may involve v0, m, k as parameters. (b) Find...

A boat with an initial velocity vo is slowed by a frictional force, F = -beav...

A boat with an initial velocity vo is slowed by a frictional force, F = -beav , b and a are constants. Find x(t) and v(t)

A projectile is launched horizontally with an initial speed of v0 = 26 m/s at the...

A projectile is launched horizontally with an initial speed of v0 = 26 m/s at the top of a cliff in a lake (h = 80 m) (see Figure). What is the speed of the projectile when its height from the water is y = 10 m?

A particle is launched horizontally, close to the Earth’s surface, with initial speed v(0) = v0...

A particle is launched horizontally, close to the Earth’s surface, with initial speed v(0) = v0 . Find both the normal and the tangential components of acceleration at an instant t > 0. Neglect air drag. Use a geometric argument to relate these components to the Cartesian components of velocity.

Suppose you shoot directly downwards some projectile with an initial speed V0 that exceeds its terminal...

Suppose you shoot directly downwards some projectile with an initial speed V0 that exceeds its terminal velocity vter. Assuming that the resistive force is linear, what is the expression for the projectile’s speed v(t) as a function time? Using a computer make a simple plot of v(t).

A snow ball, mass m, is launched with an initial velocity ~v0 and lands back on...

A snow ball, mass m, is launched with an initial velocity ~v0 and lands back on a ground at a distance D from the launch point. a) Show that there are 2 launch angles θhi and θlo which achieve the same range D for the same launch speed. Calculate these angles as a function of the given variables. b) Calculate the difference in time-of-flight ∆ttof between the two trajectories. Discuss the pros and cons of each trajectory, imagining different real...

A ball at is launched at 30 degrees above the horizontal with an initial speed at...

A ball at is launched at 30 degrees above the horizontal with an initial speed at t = 0 of v0 = 1.00 m/s, from an initial height h0 = 1.00 m above the ground. What is the maximum height hmax it achieves above the ground, and what is the time tmax it takes to get there? Show your final formulas, and the numerical results.

A beach ball is thrown upward with initial speed v0. Assume that the drag force from...

A beach ball is thrown upward with initial speed v0. Assume that the drag force from the air is F = −mαv. What is the speed of the ball, vf , when it hits the ground? (An implicit equation is sufficient.) Does the ball spend more time or less time in the air than it would if it were thrown in vacuum? Where is the time needed in space vacuum is t = 2v0 / g .

A particle of mass m = 1.3 kg and initial velocity v0 = 12.5 m/s, strikes...

A particle of mass m = 1.3 kg and initial velocity v0 = 12.5 m/s, strikes an initially stationary particle of mass M = 10.5 kg. The collision is inelastic. Afterwards, particle m is observed moving at a speed v = 9.5 m/s, at an angle θ = 62° from its initial direction of motion, and particle M is observed moving at a speed V Find V, the final speed of particle M, in m/s. What happens to V if...