You drop an object with mass 3 kilograms from atop a building. Suppose the air resistance...

A mass of five kilograms is mounted horizontally on a spring, with spring constant 1 Newton...

A mass of five kilograms is mounted horizontally on a spring, with spring constant 1 Newton per meter, and friction coefficient 4 Newton-seconds per meter. The mass is in a magnetic field which exerts an additional force on the mass of constant strength 1 Newton. At time t = 0, the mass is at rest, at its equilibrium position. Write down the differential equation which describes the position of the mass, and compute its general solution.

Consider an object with mass m dropped from rest. Assume that air resistance is proportional to...

Consider an object with mass m dropped from rest. Assume that air resistance is proportional to the square of the velocity of the object, with positive proportionality constant k. Let v(t) be the velocity after t seconds, and let g be the acceleration of the object due to gravity. The corresponding initial value problem is mdv =mg−kv2; v(0)=0. dt (a) Solve the initial value problem. Your answer will be in terms of m, k, and g. (b) Compute lim v(t)....

A mass of m kilograms is attached to a spring with spring contant k kilograms per...

A mass of m kilograms is attached to a spring with spring contant k kilograms per second squared. The initial position of the mass is x_0 meters from the spring's equilibrium position and the initial velocity is v_0 meters per second. Find an equation x(t) describing the motion of the mass assuming the damping constant is c kilograms per second and t is time measured in seconds. m=1/2, c=3, k=4, x_0=2, v_0=0 please explain how to do this.

Assuming an object has a total mass of M and gravitational constant on earth = g,...

Assuming an object has a total mass of M and gravitational constant on earth = g, air resistance = Cd, total surface area = A, initial height = H, and this object has a thruster (assuming constant thrust = F_thrust) that ignites at a time T_ignition and stops burning at time T_turnoff (T_turnoff and T_ignition occur at different time during the process), please derive an equation for the velocity of this linear vertical motion as a function of time, V(t).

An object with mass 162 kg is given an initial velocity −5ms-5ms in a medium that...

An object with mass 162 kg is given an initial velocity −5ms-5ms in a medium that exerts a resistive force with magnitude proportional to the square of the speed. The resistance is 80 N when the velocity is −2ms-2ms. Use g=−10ms2g=-10ms2 a)Write out a differential equation in terms of the velocity vv, and acceleration aa b)Find the velocity v(t)v(t) for the object d)State and interpret the end behavior for the solution found in part b.

You drop a single coffee filter of mass 1.3 grams from a very tall building, and...

You drop a single coffee filter of mass 1.3 grams from a very tall building, and it takes 54 seconds to reach the ground. In a small fraction of that time the coffee filter reached terminal speed. (a) What was the upward force of the air resistance while the coffee filter was falling at terminal speed? Fair =____ N (b) Next you drop a stack of 4 of these coffee filters. What was the upward force of the air resistance...

A 200​-lb object is released from rest 500 ft above the ground and allowed to fall...

A 200​-lb object is released from rest 500 ft above the ground and allowed to fall under the influence of gravity. Assuming that the force in pounds due to air resistance is - 5​v, where v is the velocity of the object in​ ft/sec, determine the equation of motion of the object. When will the object hit the​ ground? Assume that the acceleration due to gravity is 32 ft/sec2 and let​ x(t) represent the distance the object has fallen in...

A mass weighting 8 lbs stretches a spring 2 inches. The mass is in a medium...

A mass weighting 8 lbs stretches a spring 2 inches. The mass is in a medium that exerts a viscous resistance of 3 lbs when the mass has a velocity of 6 ft/sec. Suppose the object is displaced an additional 7 inches and released. Find an equation for the object's displacement, u(t), in feet after t seconds. u(t) =

A 3.30 kg object hangs, at rest, on a 1.40 m long string attached to the...

A 3.30 kg object hangs, at rest, on a 1.40 m long string attached to the ceiling. A 109 g object is fired with a speed of 16 m/s at the 3.30 kg object, and the two objects collide and stick together in an inelastic collision. Write an equation for the motion of the system after the collision. Assume air resistance is negligible. (Assume the collision occurs at t = 0. Let θ be the angle between the initial position...

Solve the following exercise by applying differential equations: A person weighing 67 kg falls from a...

Solve the following exercise by applying differential equations: A person weighing 67 kg falls from a building measuring 40m with an initial speed of 3m / sec. Let's suppose: The air resistance is proportional to the speed of the body. The limit speed at which it can fall is 40 m / sec. Find: a) the expression of the velocity of the object in a time t, b) the expression for the position of the body at a time t...