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In (14) of Section 1.3 we saw that a differential equation describing the velocity v of...
Differential Equation 3.2.015
A differential equation for the velocity v of a falling mass m subjected to air resistance proportional to the square of the instantaneous velocity ism(dv/dt) = mg − kv2,k > 0 is a constant of proportionality. The positive direction is downward.(a) Solve the equation subject to the initial condition v(0) = v0.(b) Use the solution in part (a) to determine the limiting, or terminal, velocity of the mass.(c) If the distance s, measured from the point where the mass was released above ground, is related to velocity v by ds/dt = v(t), find an explicit expression for s(t) if...
5. In certain circumstances, we can model the velocity of a falling mass subject to air...
5. In certain circumstances, we can model the velocity of a falling mass subject to air resistance as - dv m7 = mg – kv?, where v (t) is the velocity of the object, m is the mass of the object, g is acceleration due to gravity, and k is a constant of proportionality. Assume the positive direction is downward. (a) Solve this equation subect to the initial condition v (0) = vo. (b) What is the terminal velocity of...
3) The velocity v(t) of a skydiver falling to the ground is governed by the equation...
3) The velocity v(t) of a skydiver falling to the ground is governed by the equation m dv/dt mg-kv, where g is the acceleration due to gravity, and k>0 is the drag constant associated with air resistance a) Find the analytical solution for V(t), assuming v(0) 0 b) Find the limit of v(t) as t goes to infinity. This is known as the terminal velocity. c) Give a graphical analysis of this problem, and re-derive the formula for the terminal...
Submission 3 (0.66/1 points) Friday, July 24, 2020 07:15 PM +08 Suppose a small cannonball weighing...
Submission 3 (0.66/1 points) Friday, July 24, 2020 07:15 PM +08 Suppose a small cannonball weighing 98 N is shot vertically upward, with an initial velocity Vo = 94 m/s. The answer to the question "How high does the cannonball go?" depends on whether we take air resistance into account. If air resistance is ignored and the positive direction is upward, then a model for the state of the cannonball is given by d s/dt = -9 (equation (12) of...
2) (15PTS) A BODY of Mass in FALLING VERTICALLY IN SPACE ENCOUNTERS AIR RESISTANCE PROPORTIONAL TO...
2) (15PTS) A BODY of Mass in FALLING VERTICALLY IN SPACE ENCOUNTERS AIR RESISTANCE PROPORTIONAL TO THE StU ARE OF ITS INSTANTANEOUS VELOCITY vlt) in meters/sec. ITS DIFFERENTIAL EQUATION OF MOTION IS m du = mg - kv²; vco)= Vo where Kyo is THE CONSTANT OF PRPORT, ON ALITY AND J is POSITIVE. FIND THE TERMINAL VELOCITY OF THE FALLING BODY ( t o )
3. In lecture, we derived the detailed time-dependence of the downward speed of a falling object...
3. In lecture, we derived the detailed time-dependence of the downward speed of a falling object with a kv frictional force. Perform the analogous derivation of the time-dependence of the speed v(t) for a falling object subject to air drag, Farag-DV2 a. First use Newton's second law for a vertically falling mass m to find an equation relating dt to v(t). b. Integrate this equation. Let the initial velocity be v(0) = 0 at t = 0. c Make a...
The differential equation describing the motion of a mass attached to a spring is x'' +...
The differential equation describing the motion of a mass attached to a spring is x'' + 16x = 0. If the mass is released at t = 0 from 1 meter above the equilibrium position with a downward velocity of 3 m/s, the amplitude of vibrations is Please show all work. Thank you!
NOTES: HI, PLEASE SOLVE BY USING ANALYTICAL METHOD WHICH IS RELATED TO FLUID MECHANICS(DRAG FORCE).TQ 25.19...
NOTES: HI, PLEASE SOLVE BY USING ANALYTICAL METHOD WHICH IS
RELATED TO FLUID MECHANICS(DRAG FORCE).TQ
25.19 Assuming that drag is proportional to the square of velocity, we can model the velocity of a falling object like a parachutist with the following differential equation: dv dt where v is velocity (m/s), 1 = time (s), g is the acceleration due to gravity (9.81 m/s), c = a second-order drag coefficient (kg/m). and m 90-kg object with a drag coefficient of 0.225...
2. Consider the mass-spring system shown in the figure below. It can be shown that the...
2. Consider the mass-spring system shown in the figure below. It can be shown that the motion of the mass is governed by the equation a=-sw^2, where s and a are the position and acceleration of the mass, respectively, and w is a constant (which is referred to as the natural frequency of the system). Derive the equation describing the velocity of the mass in terms of the position. Assume that the velocity of the mass is v(subzero) when s=0...
feet per second and in miles per second 18 An object of mass m is moving...
feet per second and in miles per second 18 An object of mass m is moving horizontally through a medium which resists the motion with a force that is a func- tion of the velocity; that is, d's dv f(v) dt =m dt2 where v = s(1) represent the velocity and at time , respectively. For example, v(t) and s position of the object think of a boat moving through the water. (a) Suppose that the resisting force is proportional...
5. In certain circumstances, we can model the velocity of a falling mass subject to air resistance as - dv m7 = mg – kv?, where v (t) is the velocity of the object, m is the mass of the object, g is acceleration due to gravity, and k is a constant of proportionality. Assume the positive direction is downward. (a) Solve this equation subect to the initial condition v (0) = vo. (b) What is the terminal velocity of...
3) The velocity v(t) of a skydiver falling to the ground is governed by the equation m dv/dt mg-kv, where g is the acceleration due to gravity, and k>0 is the drag constant associated with air resistance a) Find the analytical solution for V(t), assuming v(0) 0 b) Find the limit of v(t) as t goes to infinity. This is known as the terminal velocity. c) Give a graphical analysis of this problem, and re-derive the formula for the terminal...
Submission 3 (0.66/1 points) Friday, July 24, 2020 07:15 PM +08 Suppose a small cannonball weighing 98 N is shot vertically upward, with an initial velocity Vo = 94 m/s. The answer to the question "How high does the cannonball go?" depends on whether we take air resistance into account. If air resistance is ignored and the positive direction is upward, then a model for the state of the cannonball is given by d s/dt = -9 (equation (12) of...
2) (15PTS) A BODY of Mass in FALLING VERTICALLY IN SPACE ENCOUNTERS AIR RESISTANCE PROPORTIONAL TO THE StU ARE OF ITS INSTANTANEOUS VELOCITY vlt) in meters/sec. ITS DIFFERENTIAL EQUATION OF MOTION IS m du = mg - kv²; vco)= Vo where Kyo is THE CONSTANT OF PRPORT, ON ALITY AND J is POSITIVE. FIND THE TERMINAL VELOCITY OF THE FALLING BODY ( t o )
3. In lecture, we derived the detailed time-dependence of the downward speed of a falling object with a kv frictional force. Perform the analogous derivation of the time-dependence of the speed v(t) for a falling object subject to air drag, Farag-DV2 a. First use Newton's second law for a vertically falling mass m to find an equation relating dt to v(t). b. Integrate this equation. Let the initial velocity be v(0) = 0 at t = 0. c Make a...
NOTES: HI, PLEASE SOLVE BY USING ANALYTICAL METHOD WHICH IS
RELATED TO FLUID MECHANICS(DRAG FORCE).TQ
25.19 Assuming that drag is proportional to the square of velocity, we can model the velocity of a falling object like a parachutist with the following differential equation: dv dt where v is velocity (m/s), 1 = time (s), g is the acceleration due to gravity (9.81 m/s), c = a second-order drag coefficient (kg/m). and m 90-kg object with a drag coefficient of 0.225...
feet per second and in miles per second 18 An object of mass m is moving horizontally through a medium which resists the motion with a force that is a func- tion of the velocity; that is, d's dv f(v) dt =m dt2 where v = s(1) represent the velocity and at time , respectively. For example, v(t) and s position of the object think of a boat moving through the water. (a) Suppose that the resisting force is proportional...
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