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solve them clear please with formeula & FBD
The collar at O and attached shaft OC...
Please solve it clear they solve it two time wrong , solve it with find,given,FBD,formula ..thankyoooou...
Please solve it clear they solve it two time wrong , solve it
with find,given,FBD,formula ..thankyoooou ?????
The collar at O and attached shaft OC rotate about the fixed X-axis at a constant rate 1 = 4 rad/s. The circular disk with radius 300 mm rotates at an angular velocity of ) = 10 rad/s and accelerates at a rate of Ö = 2 rad/s2. An observer and xyz coordinate system are attached to the disk, as shown in the...
The collar at 0 and attached shaft OC rotate about the fixed X-axis at a constant...
The collar at 0 and attached shaft OC rotate about the fixed X-axis at a constant rate 1 = 4 rad/s. The circular disk with radius 300 mm rotates at an angular velocity of Ó = 10 rad/s and accelerates at a rate of Ö = 2 rad/s2. An observer and xyz coordinate system are attached to the disk, as shown in the figure below. The following equations are to be used to find the velocity and acceleration of point...
Question 1 40 Points The collar at O and attached shaft OC rotate about the fixed...
Question 1 40 Points The collar at O and attached shaft OC rotate about the fixed X-axis at a constant rate 12 = 4 rad/s. The circular disk with radius 300 mm rotates at an angular velocity of ė = 10 rad/s and accelerates at a rate of P = 2 rad/s2. An observer and xyz coordinate system are attached to the disk, as shown in the figure below. The following equations are to be used to find the velocity...
The collar at 0 and attached shaft OC rotate about the fixed X-axis at a constant...
The collar at 0 and attached shaft OC rotate about the fixed X-axis at a constant rate 1 = 4 rad/s. The circular disk with radius 300 mm rotates at an angular velocity of @ = 10 rad/s and accelerates at a rate of 8 = 3 rad/s2 An observer and xyz coordinate system are attached to the disk, as shown in the figure below. The following equations are to be used to find the velocity and acceleration of point...
The collar at 0 and attached shaft OC rotate about the fixed X-axis at a constant...
The collar at 0 and attached shaft OC rotate about the fixed X-axis at a constant rate 1 = 4 rad/s. The circular disk with radius 300 mm rotates at an angular velocity of @ = 10 rad/s and accelerates at a rate of 8 = 3 rad/s2 An observer and xyz coordinate system are attached to the disk, as shown in the figure below. The following equations are to be used to find the velocity and acceleration of point...
Question 2 30 Points The 644 lb weight in the figure is lifted by a motor...
Question 2 30 Points The 644 lb weight in the figure is lifted by a motor which is connected to two attached disks by cables. The total weight of the two disks are 322 lb and Kgyration about O is 18 in. If the motor provides constant 400 lb tension force in the cable, (a) determine the acceleration of the weight. (15 pts.) (b) Total forces applied to point O. (15 pts.) 24" 12" P = 400 lb W =...
please be sure I post this three times and get 3 different answers please solve it...
please be sure
I post this three times and get 3 different answers please solve
it
The collar at 0 and attached shaft OC rotate about the fixed X-axis at a constant rate 1 = 4 rad/s. The circular disk with radius 300 mm rotates at an angular velocity of = 10 rad/s and accelerates at a rate of 7 = 3 rad/s2. An observer and xyz coordinate system are attached to the disk, as shown in the figure below....
A bullet is shot through two cardboard disks attached a distance D apart to a shaft turning with a rotational period T, as shown.
A bullet is shot through two cardboard disks attached a distance D apart to a shaft turning with a rotational period T, as shown. Derive a formula for the bullet speed u in terms of D, T, and a measured angle e between the position of the hole in the first disk and that of the hole in the second. If required, use r, not its numeric equivalent. Both of the holes lie at the same radial distance from the shaft....
• The square plate rotates about the fixed point O. At the instant represented, its angular...
• The square plate rotates about the fixed point O. At the instant represented, its angular velocity is w=6 rad/s and its angular acceleration a=4 rad/s2. Determine the velocity and acceleration of C. у B |A 45 X 15 30 30-C Dimensions in millimeters
Please show all work! Thank you! P.S. 5.2 Q2 A force of 15 lb stretches a spring 3 ft. A 8-lb weight is attached to the...
Please show all work! Thank you!
P.S. 5.2 Q2
A force of 15 lb stretches a spring 3 ft. A 8-lb weight is attached to the spring and the system is immersed in a medium that imparts a damping force equal to its instantaneous velocity. (a) Find the equation of motion if the weight is released from rest 15 inches above equilibrium position x(t) Preview (b) the weight is released 15 inches above the equilibrium position with an upward velocity...
Please solve it clear they solve it two time wrong , solve it
with find,given,FBD,formula ..thankyoooou ?????
The collar at O and attached shaft OC rotate about the fixed X-axis at a constant rate 1 = 4 rad/s. The circular disk with radius 300 mm rotates at an angular velocity of ) = 10 rad/s and accelerates at a rate of Ö = 2 rad/s2. An observer and xyz coordinate system are attached to the disk, as shown in the...
The collar at 0 and attached shaft OC rotate about the fixed X-axis at a constant rate 1 = 4 rad/s. The circular disk with radius 300 mm rotates at an angular velocity of Ó = 10 rad/s and accelerates at a rate of Ö = 2 rad/s2. An observer and xyz coordinate system are attached to the disk, as shown in the figure below. The following equations are to be used to find the velocity and acceleration of point...
Question 1 40 Points The collar at O and attached shaft OC rotate about the fixed X-axis at a constant rate 12 = 4 rad/s. The circular disk with radius 300 mm rotates at an angular velocity of ė = 10 rad/s and accelerates at a rate of P = 2 rad/s2. An observer and xyz coordinate system are attached to the disk, as shown in the figure below. The following equations are to be used to find the velocity...
The collar at 0 and attached shaft OC rotate about the fixed X-axis at a constant rate 1 = 4 rad/s. The circular disk with radius 300 mm rotates at an angular velocity of @ = 10 rad/s and accelerates at a rate of 8 = 3 rad/s2 An observer and xyz coordinate system are attached to the disk, as shown in the figure below. The following equations are to be used to find the velocity and acceleration of point...
The collar at 0 and attached shaft OC rotate about the fixed X-axis at a constant rate 1 = 4 rad/s. The circular disk with radius 300 mm rotates at an angular velocity of @ = 10 rad/s and accelerates at a rate of 8 = 3 rad/s2 An observer and xyz coordinate system are attached to the disk, as shown in the figure below. The following equations are to be used to find the velocity and acceleration of point...
Question 2 30 Points The 644 lb weight in the figure is lifted by a motor which is connected to two attached disks by cables. The total weight of the two disks are 322 lb and Kgyration about O is 18 in. If the motor provides constant 400 lb tension force in the cable, (a) determine the acceleration of the weight. (15 pts.) (b) Total forces applied to point O. (15 pts.) 24" 12" P = 400 lb W =...
please be sure
I post this three times and get 3 different answers please solve
it
The collar at 0 and attached shaft OC rotate about the fixed X-axis at a constant rate 1 = 4 rad/s. The circular disk with radius 300 mm rotates at an angular velocity of = 10 rad/s and accelerates at a rate of 7 = 3 rad/s2. An observer and xyz coordinate system are attached to the disk, as shown in the figure below....
• The square plate rotates about the fixed point O. At the instant represented, its angular velocity is w=6 rad/s and its angular acceleration a=4 rad/s2. Determine the velocity and acceleration of C. у B |A 45 X 15 30 30-C Dimensions in millimeters
Please show all work! Thank you!
P.S. 5.2 Q2
A force of 15 lb stretches a spring 3 ft. A 8-lb weight is attached to the spring and the system is immersed in a medium that imparts a damping force equal to its instantaneous velocity. (a) Find the equation of motion if the weight is released from rest 15 inches above equilibrium position x(t) Preview (b) the weight is released 15 inches above the equilibrium position with an upward velocity...
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