The system in the figure is in equilibrium. A concrete block of mass 243 kg hangs from the end of the uniform strut of mass 318 kg For angles o- 29.6° and e-66.5", find (a) the tension Tin the cable and the (b) horizontal and (c) vertical components of the force on the strut from the hinge. Sert -Hinge
Q: In a room where the temperature is T=109.82K, a football has been inflated to a gauge pressure of P=...
A:
Q: Using the example in the deadlift photo, draw a simplified free body diagram of the system. Add to y...
A:
Q: ɢɪᴠᴇɴ ᴀ ꜱʜᴇᴀʀ ꜱᴛʀᴇꜱꜱ ᴏꜰ ʀxʏ = 5000 ᴘꜱɪ ᴀɴᴅ ᴀ ꜱʜᴇᴀʀ ᴍᴏᴅᴜʟᴜꜱ ᴏꜰ ɢ = 1.15 x 10^7 ᴘꜱɪ, ꜰɪɴᴅ ᴛʜᴇ ꜱʜᴇᴀʀ ꜱᴛ...
A:
Q: A regenerative system uses a Ø10 cm cylinder with a Ø6 cm rod. The system operates at 25 Ipm and 750...
A:
Q: 9.16 Figure (a) shows the cross-sectional dimensions for the structural steel sec- tion known as C10...
A: given; Ix=78.9 in4Iy=2.81 in4
Q: A carnot engine is working between the temperature range of 227°C and 127°C. If the heat absorbed by...
A:
Q: One kilogram of air is compressed from a volume of 1.0 m and a pressure of 100 kPa to a volune of D....
A: Here diven Mass of the air m=1 kgInitial volume =V1=0.547 m3Initial pressure P1=400kpaFinal volume V...
Q: What height of a column of special gage liquid (sp gr 1.85) would exert the same pressure as a colum...
A:
Q: ver developed by each wheel if the generator is 95%? B- A centrifugal pump is required to pump water...
A: given data,Double overhang pelton wheel Total powe genreated=12000kwNoof wheel =2ηgenrator=95%
Q: Diameter = 100m Bench Height = 10m Bench Width = 5m Bench Slope Angle = 45° a. What is the volumetri...
A: Write the given data. V1=63846.66 m3V1+V2+V3=99745 m3
Q: A 4.0 kg mass, ml, hangs from a rope that runs over a massless frictionless pulley and is connected ...
A:
Q: (a) Plot the specific heat of water versus the water temperature for temperatures ranging from 80 to...
A: Initially the variation of specific heat of water ranging from 80°C to 120°C has to be plotted. Then...
Q: 1. Calculate the composition of a lin (Sn)/ lead (Pb) alloy Lhat has the lowest melting point. Plot ...
A: FIBER REINFORCEMENT 1.The properties of fiber reinforcement composites depend upon the following fac...
Q: For the mechanism shown in the figure, find the accelerations of the connecting rod at its center of...
A:
Q: A) A 1.2 kg block slides down a frictionless incline with a slope angle of 42°, starting from a heig...
A:
Q: Find the magnitude and direction of the resultant water pressure acting on a curved face of a dam wh...
A:
Q: which has a coefficient of static friction -What is the maximum speed at which
A: To find minimum speed.
Q: Why is Selenium the tool of choice for automation testing?
A: selenium is the most used tool for automation testing. Because of the following reasons, It enables...
Q: 1. A 150 inch long aluminum bar is subjected to a tensile stress of 25000 psi. Find the elongation. ...
A:
Q: A pitot tube records of 7.85 kN/m² as the stagnation pressure when it is head at the centre of pipe ...
A: Answer: The discharge through the pipe is 0.2 m3/sec.
Q: i) A direct extrusion operation produces the cross section shown in Figure 1 (all dimensions in mm) ...
A:
Q: The cross section of a beam made of thin stripsof aluminum separated by a lightweight plastic is sho...
A: Stress is defined as the internal resisting force per unit area. when an axial tensile load is appli...
Q: For the series circuit in Fig. (1): a. Find the total resistance RT. b. Determine the source current...
A: a.Here all the resistances are in series connection. hence total resistance is given by RT = R1 + R2...
Q: How are stress and performance related? A. Negatively linear: higher stress leads to lower perf...
A: Both options A and B are correct If we consider it as a linear relationship option A is correct
Q: the power developed
A: Given: Under steady state:Specific enthalpy and velocity of steam at inlet and exit of a steamturbin...
Q: temperature -20°C. Determine the condition of refrigerant at the end of the expansion ( outlet of ca...
A:
Q: A) A 1.2 kg block slides down a frietionless incline with a slope angle of 42°, starting from a heig...
A: As per the Bartleby answering guidelines we are supposed to answer first Question only. Please repos...
Q: (S) Sonic wave of air kg) "M2s 413 = Z (to a longer liquid KG (M3 950) and quickly sound) 's cm 7500...
A: Given Data,Zair=413 kg m2/sϕL=950 kgm2VL=750 m/s
Q: Elaborate the benefits of smart factory. Explain any one example wherein implementation of smart fac...
A: Smart Factory : The Smart Factory concept related to the various applications of different combinati...
Q: A ball is kicked horizontally outward with a velocity of VA from point A and just clear the tree at ...
A: Here let a=10 AB distance=6.5+0.1 x 4AB=7.5mFrom A to Bh=1.5ma=g=9.81 m/s2h=ut+12at21.5=0+12 x 9.81 ...
Q: 1. What is the main function of a flywheel in an engine? 2. In what way does a flywheel differ from ...
A:
Q: Two torque as shown are applied on a compound shaft of aluminum segment and a steel. Determine the m...
A:
Q: Using any method shown in class, determine the shear force and bending moment diagram for the image ...
A:
Q: f a thermometer is taken from a room in which the temperature is 750 into the open, where the temper...
A: Given:Temperature of room, Tr=75o COpen atmospheric temperature, To=35o CAfter 30 s reading=65o C
Q: A bar is subjected to fluctuating tensile load from 20 KN to 100 kN. The material has yield strength...
A: Given, Minimum force during a cycle = Fmin = 20 kN Maximum force during a cycle = Fmax = 100 kN Yie...
Q: A carnot engine is working between the temperature range of 227°C and 127°C. If the heat absorbed by...
A: From the data given in question, Higher temperature in carnot cycle = TH = 227 oC = 500 K Lower temp...
Q: Find the value of Pressure (MPa), volume (m^3/kg), enthalpy, and internal energy if the T=321 ℃ and ...
A: Given Data T=321°Cs=5.544kJ/kg.K
Q: The assembly is used to support the distributed load of w=500 lb/ft. determine effort normal in bar ...
A: Given Force = 500 lb/ft Bar diameter = 0.4 in Bolt diameter = 0.3 in To find Normal stress in bar Sh...
Q: 2. Please find the miller Indices for the plan pictured below. This cube is equal on all sides and a...
A:
Q: An orificemeter with ortfice diameter 12 cm is inserted in a pipe of 20 cm diameter. The pressure di...
A: Given Data, d0=12 cm=0.12 m (orifice)d1=20 cm=0.2 m (pipe)p1-p0=9.81 N/cm2Cd=0.6
Q: (S) Sonic wave of air kg) "M2s 413 = o Z (to a longer liquid KG (M3 950) and quickly sound) 's cm 75...
A: Given DataZair=413 kgm2/sρL=950kgm3VL=750m/s
Q: The higher temperature of a refrigerating system operating at a Reverse Carnot Cycle is 240 °F and t...
A: Higher temperature in the cycle, TH=240oF=388.706 KLower temperature in the cycle, TL=266.483 KRefri...
Q: Find the mass in metric tons per day of at -5 °C that would theoretically made in a refrigerating pl...
A:
Q: 2. At a certain location, wind is blowing steadily at 10 m/s. Determine the mechanical energy of air...
A:
Q: A steel rod having a cross-sectional area of 300 mm and a length of 150 m is suspended vertically fr...
A: Answer: The total elongation of the rod is 54.33 mm.
Q: Question 2: There is a refrigeration system with R134a.The compressor operates accepting fluid at 25...
A: Using R134a thermodynamic property table, enthalpy at various points have been calculated taking lin...
Q: A slab of size 300 x 300 x 50 mm is reguire to be cast from a molten steel using a top riser of 170 ...
A: The freezing ratio is calculated by dividing the total surface area of the casting by the total volu...
Q: Oxygen gas initially at 355 K and 1.50 bar undergoes the following cyclic ...
A:
Q: thapter 2, Problem 2/088 n exhaust system for a pickup truck is shown in the figure. The weights Wh,...
A:
Q: Draw the shear-force and bending-momentdiagrams for beam AB with a sliding support at Aand an elasti...
A: Shear force is the algebraic sum of the vertical forces at any segment of a beam to the right or lef...
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 1 images
- The figure shows a three-pin arch. Determine the horizontal component of the pin reaction at A caused by the applied force P.4.00 kg block is attachedto a vertical rod by meansof two strings. When the systemrotates about the axis of the rod,the strings are extended as shownin Fig. and the tensionin the upper string is 80.0 N. (a)What is the tension in the lowercord? (b) How many revolutionsper minute does the system make?(c) Find the number of revolutionsper minute at which the lowercord just goes slack. (d) Explainwhat happens if the number ofrevolutions per minute is less thanthat in part (c).4. The mobile shown in the figure below hangs at equilibrium. It consists of objects held by vertical strings. Object 3 weighs 1.40 N, while each of the identical uniform horizontal bars wieghs 0.50 N. Find (a) the weights of objects 1 and 2, and (b) the tension in the upper string. ononoo mi nddliops q uode dsi upiol 1ol no COF nia)(M bns H boz/3 L3 boriupor L/2 L/2 noe1og 0008 adgis 1eris 2 d bns Inol noowiod eib pob so1ot dbum woltalosano
- Q1/ In the equilibrium position shown in figure below, the uniform bar (AB) has a mass of (50 kg) and supports load (200 kg) at (A). Determine the tension (T) in the cable and reaction force at (B)? 2.5m 2.5n A 200 kg T= 7646 N, FBx= 2000 N, and FBy = 3299 N T= 6511 N, FBx = 3823 N, and FBy = 8992 N T = 7646 N, FBx = 3823 N, and FBy = 4169 N Non of the aboveExample -2: Determine the tension in cables BA and BC necessary to support the 60-kg cylinder. w=mg TA Tc 45° fy co THD 60 (9.81) N TBD = 60 (9.81) N 60 (9.81) N (b)A 400 N gas sign hangs from the end of a uniform strut BC. The strut is 4 m long and weighs 600 N. The strut is supported by a hinge at the wall at C and by a cable whose other end is tied to the wall at point A 3.0 m above the left end of the strut. Find the tension in the supporting cable and the force of the hinge on the strut. 5.0 m 3.0 m 4.0 m B GAS TAB= 1333 N TAB= 1167 N TAB= 400 N TAB= 1000 N leave the question 4 Other: Q 4 4 points Rc= 980 N O Rc= 360 N Rc= 890 N Rc= 1085 N O O O O O O O
- A rear suspension system for a front wheel-drive vehicle is shown here. Spring EF is offset behind member CD. The normal force due to contact between 2 wheel and the road is 4200 N. Assume the weight of the wheel and suspension system components is negligible. (a) Determine the magnitude of the force in member CD. Is the member in tension or compression? (b) Determine the support reactions at A. (c) Determine the unstretched length of the spring EF given a spring constant of 150 kN/m. 60 mm 1130 mm 60 mm 245 mm D 220 mm F 260 mm E B 165 mm 90 mm F = 4200 NThe cylinder C in the figure below weighs 1000lbs. Determine the tension in the cable , and the reactions A and FThe light boom AB is attached to a vertical wall by a ball and socket joint at A and supported by two cables at B.A force P is applied at B where P= 20i - 14j kN.Note that the reaction force at A acts along the boom because it is a two-force member. Calculate the magnitude of the reaction force at A in kN. of stion 2m 4 m. 6 m Answer: 5 Calculate the magnitude of the tension in cable BD in kN. of Answer:
- For the plane truss shown, diagonal members BG, CF, CH, and DG are cables which can brace the truss in tension only. Given: P, = 1 kN, P2 = 3 kN, P3 = 3 kN, P4 = 1.5 kN, a = 3 m, b = 2.25 m, and h = 3 m. What is the force (kN) in member BF? h b DI a a P,V P2 P3V cable cable cable cable2. Auniform bar 3.00 m long is held by ropes at the ends making angle 60.0° and 30.0°, respectively, with the horizontal. A weight of 200 N is hung 0.500 m from the left end where the 60.0° rope is attached. Find the tension in the ropes (T1 & T2) and the weight (W) of the bar. (Hint: Formulate three equations for the three unknowns, 2 equations for the 1st condition and 1 equation for the 2nd condition.) 3.00m T2 7 0.500m 60.0 B 200 NA rear suspension system for a front wheel-drive vehicle is shown here. Spring EF is offset behind member CD. The normal force due to contact between the wheel and the road is 4200 N. Assume the weight of the wheel and suspension system components is negligible. (a) Determine the magnitude of the force in member CD. Is the member in tension or compression? (b) Determine the support reactions at A. (c) Determine the unstretched length of the spring EF given a spring constant of 150 kN/m. 130 mm 60 mm 245 mm 60 mm D A 220 mm F 260 mm C EB 165 mm 90 mm * F = 4200 N