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What is the magnitude of the dampening constant (in kg/s) required to...
What is the magnitude of the dampening constant (in kg/s) required to create a critically damped...
What is the magnitude of the dampening constant (in kg/s) required to create a critically damped system for a 75.0kg bicyclist if the shock absorber compresses by 50.0mm when he sits on his bike? Note: g -9.80 m/s'2
PROBLEMS 89 3-30. A system composed of a mass of S kg and an elastic member having a modulus of 4...
Please answer 3-34 and 3-35. Please provide all steps so I can
follow along.
PROBLEMS 89 3-30. A system composed of a mass of S kg and an elastic member having a modulus of 45 N/m is less than critically damped. When the mass is givén an initial displacement and released from rest, the overshoot (the displacement attained past the equilibrium position) is 25% Determine the dam ping factor and the damping constant. 3-31. A mass-spring system is critically damped....
please solve this question and show steps! thank you so much! A 109 kg horizontal platform...
please solve this question and show steps! thank you so
much!
A 109 kg horizontal platform is a uniform disk of radius 1.79 m and can rotate about the vertical axis through its center. A 63.3 kg person stands on the platform at a distance of 1.01 m from the center, and a 29.3 kg dog sits on the platform near the person 1.39 m from the center. Find the moment of inertia of this system, consisting of the platform...
Could I please get the steps used to solve this problem? Thanks. A 70.0 kg football...
Could I please get the steps used to solve this problem? Thanks. A 70.0 kg football player leaps straight up into the air (with no horizontal velocity) to catch a pass. He catches the 0.430 kg ball precisely at the peak of his jump, when he is 23.2 inches off the ground. He hits the ground 1.36 inches away from where he leapt. If the ball was moving horizontally when it was caught, how fast was the ball travelling? Answer:_______...
Please solve the question below: Required are the Bode Magnitude Plots for G(s), C(s) and G(s)C(s...
Please solve the question below:
Required are the Bode Magnitude Plots for G(s), C(s) and
G(s)C(s) AND the discretized controller in Z-transform (using
Generalized Bilinear Transformation) AND Derive the Euler and
Tustin discretization
2.Given a continuous control system in the following figure, the plant ()-+2) plant G(s)- and +2) the controller Ca-il.7(s +4.41) 8 + 18.4 41.7(s4.41) 18.4 4 s( 2) a). Sketch the Bode magnitude plots of the plant G(s), the controller C(s), and the controlled plant G(s)C( b)....
PART A PART B PART C PART D (1 point) A mass m = 4 kg...
PART A
PART B
PART C
PART D
(1 point) A mass m = 4 kg is attached to both a spring with spring constant k = 197 N/m and a dash-pot with damping constant c=4N s/m. The mass is started in motion with initial position to 3 m and initial velocity vo = 6 m/s. Determine the position function r(t) in meters. x(1) Note that, in this problem, the motion of the spring is underdamped, therefore the solution can...
Please don't skip steps if possible. Thank you! An extremely daring stunt mountain bike rider performs...
Please don't skip steps if possible. Thank you!
An extremely daring stunt mountain bike rider performs the following stunt: he starts from rest at point A on the let end of a 20 m tall hill, pedals furiously down an incline, inclined at 30° to the horizontal, to launch himself as a projectile from the right edge B of the incline. The distance AB is 15 m. He crosses an icy fjord 10 m in width, and lands on the...
In a hurry to digest this . Tks for the help (thumb up) 2. A mass of m kilograms (kg) is mounted on top of a vertical spring. The spring is L metres long when disengaged and the end not attached to t...
In a hurry to digest this . Tks for the help (thumb up)
2. A mass of m kilograms (kg) is mounted on top of a vertical spring. The spring is L metres long when disengaged and the end not attached to the mass is fixed to the ground. The mass moves vertically up and down, acted on by gravity, the restoring force T of the spring and the damping force R due to friction: see the diagram below The...
could someone help me understand these problems, the proper steps to solve them please. 1) A...
could someone help me understand these problems, the
proper steps to solve them please.
1) A person walks first at a constant speed of 1.35 m/s along a straight line from point to point and then back along the line from B to at a constant speed of 0.75 m/s. It takes the person 100s to walk from point @to point . a) What is her average speed over the entire trip? (10 points) b) What is her average velocity...
Please solve these using matlab Problem 1 Given the transfer functions e S +5 (a) C(s)...
Please solve these using matlab
Problem 1 Given the transfer functions e S +5 (a) C(s) 20 S + 20 (b) Use the step function to determine the time constant and rise time for each system. Note: estimate these values from the plot and do not use the stepinfo function. Problem 2 Given the transfer function 100 G(S) = 22 +45 + 25 a. Use the plot resulting from the step function in MATLAB to determine the percent overshoot, settling...
What is the magnitude of the dampening constant (in kg/s) required to create a critically damped system for a 75.0kg bicyclist if the shock absorber compresses by 50.0mm when he sits on his bike? Note: g -9.80 m/s'2
Please answer 3-34 and 3-35. Please provide all steps so I can
follow along.
PROBLEMS 89 3-30. A system composed of a mass of S kg and an elastic member having a modulus of 45 N/m is less than critically damped. When the mass is givén an initial displacement and released from rest, the overshoot (the displacement attained past the equilibrium position) is 25% Determine the dam ping factor and the damping constant. 3-31. A mass-spring system is critically damped....
please solve this question and show steps! thank you so
much!
A 109 kg horizontal platform is a uniform disk of radius 1.79 m and can rotate about the vertical axis through its center. A 63.3 kg person stands on the platform at a distance of 1.01 m from the center, and a 29.3 kg dog sits on the platform near the person 1.39 m from the center. Find the moment of inertia of this system, consisting of the platform...
Please solve the question below:
Required are the Bode Magnitude Plots for G(s), C(s) and
G(s)C(s) AND the discretized controller in Z-transform (using
Generalized Bilinear Transformation) AND Derive the Euler and
Tustin discretization
2.Given a continuous control system in the following figure, the plant ()-+2) plant G(s)- and +2) the controller Ca-il.7(s +4.41) 8 + 18.4 41.7(s4.41) 18.4 4 s( 2) a). Sketch the Bode magnitude plots of the plant G(s), the controller C(s), and the controlled plant G(s)C( b)....
PART A
PART B
PART C
PART D
(1 point) A mass m = 4 kg is attached to both a spring with spring constant k = 197 N/m and a dash-pot with damping constant c=4N s/m. The mass is started in motion with initial position to 3 m and initial velocity vo = 6 m/s. Determine the position function r(t) in meters. x(1) Note that, in this problem, the motion of the spring is underdamped, therefore the solution can...
Please don't skip steps if possible. Thank you!
An extremely daring stunt mountain bike rider performs the following stunt: he starts from rest at point A on the let end of a 20 m tall hill, pedals furiously down an incline, inclined at 30° to the horizontal, to launch himself as a projectile from the right edge B of the incline. The distance AB is 15 m. He crosses an icy fjord 10 m in width, and lands on the...
In a hurry to digest this . Tks for the help (thumb up)
2. A mass of m kilograms (kg) is mounted on top of a vertical spring. The spring is L metres long when disengaged and the end not attached to the mass is fixed to the ground. The mass moves vertically up and down, acted on by gravity, the restoring force T of the spring and the damping force R due to friction: see the diagram below The...
could someone help me understand these problems, the
proper steps to solve them please.
1) A person walks first at a constant speed of 1.35 m/s along a straight line from point to point and then back along the line from B to at a constant speed of 0.75 m/s. It takes the person 100s to walk from point @to point . a) What is her average speed over the entire trip? (10 points) b) What is her average velocity...
Please solve these using matlab
Problem 1 Given the transfer functions e S +5 (a) C(s) 20 S + 20 (b) Use the step function to determine the time constant and rise time for each system. Note: estimate these values from the plot and do not use the stepinfo function. Problem 2 Given the transfer function 100 G(S) = 22 +45 + 25 a. Use the plot resulting from the step function in MATLAB to determine the percent overshoot, settling...
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