Part A Constants If WAB -4 rad/s, aAB 2 rad/s2, wc 3 rad/s, and apc-7rad/s2 ,...
Constants Part A If wAB 1 rad/s, AB 5 rad Figure 1) wnc 3 rad/s, and ac rad/s, what is the acceleralion of point C where the scoop of the excavator is ettached? Enter the z and y components of the acceleration separated by a comma ac ac Submit Previous Answers Request Answer Figure Incorrect; Try Again; 11 attempts remaining nsc Provide Feedback Next > 6 m 3 m-23m Constants Part A If wAB 1 rad/s, AB 5 rad Figure...
Problem 17.101 If a)AB = 2 rad/s, CAB = 2 rad/s2 a)BC=-1 rad/s, and αBc_+4 rad/s2, what is the acceleration of point C where the scoop of the excavator is attached? DAB WBC 5.5 m 4 m 2.3 m
Constants Part A lfaAB-2 rad/s. αΑΒ-5 rad/s2 , unc-3 rad/s , and aBC-6 rad/s2 , what is the acceleration of point C where the scoop of the excavator is attached? (Figure 1) Enter the r and y components of the acceleration separated by a comma vec ac I Submit Request Answen Provide Feedback Next > Figure 1 of 1 aBc 5.5 ITm 1.6 m 2.3 m 1 I 1 1 1 I I I 1 l 1 Mathematical Constants Symbol...
both part pls Bar AB has the angular motions shown. Suppose that WAB-4.6 rad/s and ???-6.5 rad/s2 . (Figure 1) Part A Determine the velocity of the slider block C at this instant. Express your answer to three significant figures and include the appropriate units (vo)ValueUnits Submit RequestAnswer Figure 1 of 1 Part B Determine the acceleration of the slider block C at this instant. Express your answer to three significant figures and include the appropriate units 0.5 m AB...
Bar AB has the angular motions shown. Suppose that WAB = 5 rad/s and a AB = 6.6 rad/s2. (Figure 1) Part A Determine the velocity of the slider block C at this instant Express your answer to three significant figures and include the appropriate units. ? (vc. = Value Units Submit Request Answer Part B Figure < 1 of 1 Determine the acceleration of the slider block C at this instant. Express your answer to three significant figures and...
For the mechanism shown below, WAB = 3 rad/s counter clockwise and QAB = 14 rad/s2 counter clockwise. Calculate the angular velocity of BCD (WBCD) if the horizontal distances ABx = 290 mm, BCx = 590 mm, CDx = 170 mm and DEx = 290 mm. 400 mm 600 mm 500 mm AT A BCx AB, 1 CD, DE Answer: -2.73 rad/s (Continued from the previous question) For the mechanism above, calculate the angular acceleration of BCD (asco). Answer: Check...
The angular velocity of link AB is WAB = 3 rad/s. (Figure 1) Figure < 1 of 1 2 m Determine the velocity of block C at the instant 0 = 45° and 0 = 30° Express your answer to three significant figures and include the appropriate units. Enter positive value if the velocity is directed to the right and negative value if the velocity is directed to the left. μΑ ] ? Value Vc Units Part B Determine the...
12 of 11 > Rod AB rotates counterclockwise with a constant angular velocity w 3 rad/s. The collar consists of two pin-connected slider blocks which are constrained to move along the circular path and the red AB. Suppose that r=0.2 m (Figure 1) Review Determine the r and y components of the velocity of point located on the double collar when Express your answers using three significant figures separated by a comma : 15wing scale notation oe? 10 AED! vec...
Part A Water leaves the impeller of the centrifugal pump with a velocity of 29 m/s and acceleration of 35 m/s2, both measured relative to the mpeller along the blade line AB. The impeller rotates with a constant angular velocity of w 15 rad/s.Suppose that r 0.3 m Figure 1) Determine the z and y components of the velocity of a water particle at A as it leaves the impeller at the instant shown using scalar notation. Express your answers...
Problem 16.89 . Part A lf link CD has an angular velocity ofwCD-7 rad/s , detemine the velocity of point E on link BC at the instant θ = 42".(Figure 1) Enter the r and y components of the velocity separated by a comma. vec mis Submit Request Answer Figure 1 af 1 ▼ Part B Determine the angular velocity of link AB at the instant θ = 42 Express your answer with the appropriate units. Assume the counterclockwise rotation...