For the following computer problems, any appropriate software may be used. Input prompts should fully explain what is required of the user (the program should be user-friendly). The resulting output should be well labeled and self-explanatory.
6.25 Write a program that will solve Problem 6.36. User input is to be the angle of the inclined plane with the horizontal (not to exceed 90°), the weight of the block, and the coefficient of static friction.
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- Q1: In the Figure 1, two forces (P & Q) are acting on the same fixed point A. Find the resultant of these forces and its angle with the horizon by using: (a) Graphical solution. (b) Trigonometric solution. Q = 60 N Figure 1: P 40 N 35 Q2: A block of 15 kg was place on an inclined surface as shown in Figure 2. If the static coefficient of friction between the block and the surface is 0.3, find: (a) the maximum friction force. (b) the equilibrium state of the block. 15 kg Figure 2: 30arrow_forwardPlease no hand writing solutionarrow_forwardThe 150 Newton weight is attached to a rope that passes over two fixed Cylinders A & B. The coefficient of Static Friction between the rope and the cylinders is 0.3. Determine the smallest Force P that keeps the system at rest.arrow_forward
- Problem Solving: Solve the problem with complete solution in landscape orientation by placing it in a short coupon bond and avoid erasures. 1. The blocks shown are connected by flexible. inextensible cords passing over a frictionless pulleys. At A the coefficient of friction are fs = 0.30 and fk =0.20 while at B they are fs = 0.40 and fx =0.30. Compute the magnitude and direction of the friction force acting on each block. CUID 18 1 lupi 300 evenidos to sheq nobeng ella sit 200 bile owow 4900 OT YOU DEMISIA Barrow_forwardProblem 1: You have been hired to design a family-friendly see-saw. Your design will feature a uniform board (mass M=10 kg, length L = 3.7 m) that can be moved so that the pivot is a distance d from the center of the board. This will allow riders to achieve static equilibrium even if they are of different mass, as most people are. You have decided that each rider will be positioned so that his/her center of mass will be a distance xoffset ;= 17 cm from the end of the board when seated as shown. You have selected a child of mass m = 29 kg (shown on the right), and an adult of mass m2 = 62 kg (shown on the left) to test out your prototype. Xffset Xoffset Part (a) Determine the distance in meters. d = Part (b) Determine the magnitude of the force exerted on the pivot point by the see-saw while in use in newtons. EN = sin() cos() tan() 7 8 9 HOME cotan() asin() acos() E 4 atan() sinh() acotan() * 1 2 cosh() tanh() cotanh() + - END Degrees Radians BACKSPACE CLEAR DEL Submit Hint Feedback I…arrow_forwardPlease write with clear handwriting.arrow_forward
- Given problem: Determine the maximum force 'P' that can be applied without causing movement of the 248.8 lb crate which has a center of gravity at point 'G' . The coefficient of static friction at the floor is ?? = 0.4. a) Determine the maximum force ‘P’ that can be applied against sliding in lb. b) Determine the maximum force ‘P’ that can be applied against tipping in lb. c) Determine the safest maximum force ‘P’ that can be applied without causing movement in lb.arrow_forwardPlease help. Written on paper not typed on computer please. Need help on all questions. Please include all units, steps to the problem and information such as its direction or if it is in compression or tension. Thx.arrow_forwardCan someone please help me to solve the following question showing all needed work and formulas along with needed diagrams. Please and thank you!arrow_forward
- (Solution Needed) 1. A block weighing 400 N is pulled along a level from at a constant speed by a rope which makes 40° with respect to the horizontal floor. What is coefficient of sliding friction if the force on the rope is 220 N? (Needs A solution)arrow_forwardA pull of 20 N at 30° to the horizontal is necesary to move a block of wood on a horizontal table. If the coefficient of friction between the bodies in contact is 0.25, what is the weight of the blockarrow_forwardAnswer Step-wise with detailed explantions Please Answer the following question step-wise with detailed explanations. Thanks in advance? ❤️arrow_forward
- International Edition---engineering Mechanics: St...Mechanical EngineeringISBN:9781305501607Author:Andrew Pytel And Jaan KiusalaasPublisher:CENGAGE L