Find the magnitude of the resultant force given that forces of 200 lbs and 500 lbs with an angle of 80 degrees between them act on a point.
Find P (Wic) by referring to the tree diagram and using Bayes formula C 04 06 U 03 06 с 041 Start V 04 С" 06 06 W 04 P(WIC) - Type a decimal Round to three decimal places if needed) Question Viewer Enter your answer in the answer box and then click Check Answer Antho
FA= 151 lbs GIVEN: FIND: 1. x AND FA » 151 lbs FB : 256 lbs FH - 57 lbs C = 8° fe 5* component component C-8 Y of FA d=23' d=23° g. 149 2. X ANDY componENT OR FB FH > 57 lbs f= 5° 3. AND Y amponENT OF FH gol40 4. AND y component OF THE RESULTANT Polece. FB = 256 llos MAGNITUDE OF THE RESULTANT FORCE · DIRECTION (IN DEGIEEES) OF THE RESULTANT FORCE.
Find the equivalent resultant force and couple system at points
O and D, given:
F1 = 45 lbs,
F2 = 20 lbs,
F3 = 15 lbs,
L1 = 8 ft,
L2 = 6 ft,
L3 = 5 ft,
x,y,h
= 4,3,5, respectively
FR
= lbs Φ
= °
MO
= lb·ft
MD
= lb·ft
Find the equivalent resultant force and couple system at point
A. Express your answers as Cartesian vectors.
MB is parallel to the Z-axis
and MC is...
6)Find AC given DE=8, CE=7, and BE=14.
Question 6 Find AC given DE = 8, CE = 7, and BE= 14. D с E A a) O 23 b) O 12 c) O 22 d) O 16 e) 04 f) None of the above
2.9 Summation law. Given P(A-04, P{B} = 0.25, and PLAUB) 0.55, find PLAF)
Given the free body diagram in equilibrium, calculate the force W is. 650 lb w200 lb 261 lbs 200 lbs Not enough information given 300 lbs
compounding Find the payment amount p needed to amortize the given loan amount. Assume that a payment is made in each of the periods per year P = $16,000; -5.4%;t=6yr, compounded quarterly What is the correct formula for this situation? 00. p[14()" OD. Aup (14) Find the quarterly payment p=$ (Round to the nearest cent as needed.)
Problem 3:A horizontal force P is exerted on a 20-kg box in order to slide it up a 30° incline. The friction force retarding the motion is 80N. How large must P be if the acceleration of the moving box is to bea) Zero?b) 0.75m/s2?
A force of 60 N is needed to slide a 14 kg block along a ramp inclined at 25 degrees above the horizontal. If the length of the ramp is 4 m, calculate the following: How much work is done sliding the block along the ramp How much work is done against the force of friction The IMA of the ramp The AMA of the ramp The Efficiency of the ramp