.4-161. If the distribution of the ground reaction on the pipe per foot of length can...
Chapter 5, Problem 5/099 The load per foot of beam length varies as shown. For x = 14 ft, the unit load is 447 lb/ft. At x = 0, the load is increasing at the rate of 56 lb/ft per foot. Calculate the support reactions at A and B. The reactions are positive if upward, negative if downward. w = kqx - kg x2 - - D - - 7 14' Answers RA Rp =
can you help with this problem, please? Thanks. 6. The lift loading on the wing of an aircraft is well represented by: w(x) = w. (2/1). (5) In formula (5), w, is the lift force per unit (span) length at the root of the wing (the end attached to the fuselage), 1 is the length (aka span) of the wing, x is the distance from the wing tip, and 0 < a < 1 is a known exponent that depends...
Question 3 125-Points Assume that the retaining wall shown in the figure below can yield suffieiently to develop an active state. Determine the Rankine active force per unit length of the wall and the Jocation of the resultant line of action, y-16.5 kN/m de'm 30 2.5 m Ground water table Yeat= 19.3 kN/m '30° c'0 2.5 m (a) Question 4 I 25-Points and ie -hown in the figure below, Assume Question 3 125-Points Assume that the retaining wall shown in...
In the figure shown below, there is a rectangular load distribution acting on the beam. Calculate: Note: Draw all reactions in the positive x and y directions. w lb/ft L/2 ft L ft COLLAPSE IMAGES O hours : 51 minutes : 37 seconds * = 80 lb/ft L-aft The magnitude of the resultant force from the rectangular distributed load. 16 ENTER 8 t rening point possible The location of the resultant force of the rectangular distributed load measured from A....
please help solve for what is asked in orobkems A-H and the free body diagrams as well. Will upvote if correct A B C D E F G H B 4 m 6 m 3 m 12 m 2 m F=80 N Determine the projected component of the force acting along the axis AB of the pipe. 60° A The 30kg pipe is supported at A by a system of five cords. Determine the force in each cord for equilibrium....
a) what is the heat loss per unit length from the pipe in W/m? b) Estimate the heat loss per unit length if a 50 mm thick layer of insulation with a conductivity of 0.058 W/m K. Neglect radiation for this part. 3. A 0.20-m diameter, thin-walled steel pipe is used to transport saturated steam at a temperature of 486K in a room for which the air temperature is 25°C and convection heat transfer coefficient at the outer surface of...
Given: Two cables are attached to a hook at Pt A (see figure). The tension in cable AB is 600 lb. The tension in cable AC is 850 lb Determine the resultant force magnitude and corresponding coordinate direction angles acting on the hook. Retain three significant digits in each of your final answers. For your diagram, carefully and neatly redraw the cables AB and AC on a rotated coordinate system as shown. Find: Label endpoints. Dimension such that the position...
Exercise 1.15 Determine the heat losses of a non-insulated district heating pipe laid in the ground per km length. To simplify this, assume that the surface temperature of the soil is constant. The following data are given: T :0°C, Tppe-80°C, cable diameter: 30 cm, depth: 1.5 m, coarse gravel soil with #0.6 W/m K Exercise 1.15 Determine the heat losses of a non-insulated district heating pipe laid in the ground per km length. To simplify this, assume that the surface...
A slender 9 lb rod can rotate in a vertical plane about a pivot at B. A spring of constant k-30 lb/ft and of unstretched length 6 in. is attached to the rod as shown. The rod is released from rest in the position shown. 1) Determine its angular velocity after the rod has rotated through 45.(1 point) 2) Determine the reaction force at pivot point B after the rod rotated through 45. (1 point) 24 in 5 in. 4...
4. In a cylindrical pipe of uniform diameter D, the pressure loss per unit length (pa/m) due to viscous effects can be computed using the Darcy-Weisbach equation: Use a first order error analysis to determine the error in the pressure loss for a fluid of with density ρ=876±3 kg/m3 flowing in a pipe of diameter D 0.45 ±0.001 m with a mean velocity of u 10t0.1 m/s. The Darcy-Weisbach factor is gives as fp 0.064 ves as JD