A horseshoe player releases the horseshoe at A with an initial speed vo = 39 ft/sec. Determine the ranges for the launch angle 0 for which the shoe will strike the 13-in. vertical stake. = 39 ft/sec
Q: A small ring Pis threaded on a fixed smooth horizontal rod AB. Three horizontal forces of magnitudes...
A:
Q: Required information According to potential theory for the flow approaching a rounded two-dimensiona...
A: Given: The speed, U = 17 m/s The constant, a = 11 cm The density of fluid, ρ = 917 kg/m^3 The viscos...
Q: what horsepower would be developed under a head of 11 meters?
A: To find Horse power developed under a head of 11 meters.
Q: At the beginning of compression an ideal Diesel cycle using air has a pressure of 15 psia, a tempera...
A:
Q: Lead has FCC crystal structure. If the atomic weight of Pb is 207.2 g/mol and density of 11.36 g/cm^...
A: It is required to determine atomic radius of Pb
Q: (800 kg) Determine the force in each member of the loaded truss.
A: Determine the forces
Q: A gear reduction unit uses the countershaft shown in the figure. Gear A receives power from another ...
A: Given data, Force applied on gear A, FA = 11000 N Pressure angle of applied force in gear A, ϕA=20° ...
Q: cos 2r +) + cos 2r + 24. What is the simplest form of- sin 2x + + sin 2x + A) -sin2r B) -cot 2x C) -...
A: Answer: The correct answer is option (D) -tan(2x).
Q: Based on the figure, identify only the relative polar coordinates of each point. Answer should be in...
A: Given figure :
Q: igure is in equilibrium. A concrete block of mass 284 kg hangs from the end of the uniform strut of ...
A:
Q: A pump impeller rotating at 1400 rpm has an outside radius of 21 cm, the vane outlet angle B2 is 158...
A:
Q: Q) A shaft 1.5 m long are supported in flexible bearings at the ends and carry two wheels each of 50...
A:
Q: determine the moment of inertia of the quarter of the circle having a radius of 6 m. a with respe...
A: (a) Moment of inertia with respect to the given axis is Ix,quarter = Iy,quarter = 81π m4 . (b) Momen...
Q: Describe any three uses of the following gauge.
A:
Q: In the figure, a 3.7 kg block slides along a track from one level to a higher level after passing th...
A:
Q: 2016. Two cars A and B have a velocity of 60 mph in the same direction. As 250 ft behind B when the ...
A: GIVEN DATA- V=60mph=88 ft/s DISTANCE BETWEEN A AND B =250ft DEACCELERATION OF CAR B =10 ft/s2
Q: force between two charges q1 and q2, separated by a distance d, is 20 mN. e distance between the cha...
A: F=20mN
Q: 3. For a steel alloy, the stress-strain behaviour is shown below. Determine the modulus of elasticit...
A:
Q: ec. If the two systems are connected in cascade form with
A: To find Rise time of combined system.
Q: Question 2: Calculate the tension force that is being exerted on the box of mass 50kg. Refer the dia...
A:
Q: A closed system having a mass of 50 kg has an initial velocity of 10 m/s. Subsequently its velocity ...
A: A closed system with a mass of 50 kg has an initial velocity of 10 m/s, as we know.Its velocity incr...
Q: B. A machine - part needs 14 bolts a How many bo43 are needed For 25 nachine -parts? b. wnat is the ...
A:
Q: Write short notes about Curvilinear Motion: Normal and Tangential Components. Also, provide 2 sample...
A:
Q: A horseshoe player releases the horseshoe at A with an initial speed vo = 39 ft/sec. Determine the r...
A:
Q: Water in an enclosed volume of 1 m3 has heat added until it reaches a temperature of 150 Celsius. If...
A:
Q: What are the indices for the directions indicated by the two vectors in the sketch below 0,4 nm Dire...
A:
Q: Required information An excellent approximation for the two-dimensional incompressible laminar bound...
A: Given that, u=U2yδ-2y2δ2+y4δ4 for y≤δWhere,δ=cx12
Q: raphs and discussion : - What is the main benefit for the safety valve? What is the reason of fillin...
A:
Q: Problem I. In a high-rise building construction, a boom is being used to efficiently transport mater...
A:
Q: Determine the resultant couple moment acting on the beam shown: * 300 lb 200 lb 1.5 ft 200 lb 300 lb...
A:
Q: A turbine develops 144 HP running at 100 rpm under a head of 7.7 meters. (a)At what speed, in RPM, s...
A:
Q: Forces F1 and F2 are acting on a bracket AB as shown. Reduce this system into a horizontal force of ...
A:
Q: The displacement of a particle is given by s = 5t3 - 70t2 + 105t - 57 where s is in feet and tis in ...
A:
Q: a refrigerator operating on the reversed carnit cycle provides a refrigerated space at 4C while in a...
A:
Q: In a hydrocarbon processing plant, Fluid A (c, = 4.31 kJ/kg K) entering the tube side is used to hea...
A: Solution: Given Data: Cp,A=4.31 kJ/kg-KCp,B=2.05 kJ/kg-KU=150 W/m2oCmA=3 kg/smB=5.5 kg/sti,A=150oCti...
Q: Determine L{tcost}.
A: Since you have asked a multi-question, thus we can provide you the solution to the first question on...
Q: The horizontal beam ABC of an oil-wellpump has the cross section shown in the figure. If thevertical...
A: Given Load, P = 9 kips Height, h = 22 in Find Maximum bending stress
Q: In a hydrocarbon processing plant, Fluid A (cp = 4.31 kJ/kg K) entering the tube side is used to hea...
A:
Q: A particle travels along the x-axis whose acceleration is described by the a – x graph, as shown bel...
A:
Q: v (m/s] 00 m/s veSta 60 2-10 30m/) 30 Imys t (sec] 10sec 20sec
A:
Q: The angular acceleration of a flywheel decreases uniformly from 8 rad/s2 to 2 rad/s2 in 6 sec at whi...
A:
Q: :in this formula, C referred to the M * C f = I the distance h/2 Moment of Inertia O Bending moment ...
A: GIVEN DATA- SOME QUESTIONS WERE GIVEN ABOUT THE BENDING EQUATION WE HAVE TO CHOOSE THE CORRECT OPTIO...
Q: In a insulated rigid container there is helium gas being stirred by a paddle wheel using 0.02 hp for...
A:
Q: A wind tunnel has an incompressible flow of air, flowing horizontally from an inlet section, 7 times...
A: Answer: The change in height of mercury is 22.75625 mm.
Q: 8. At what distance a should the bearing supports at A and B be placed so that the deflection at the...
A:
Q: A Hartnell govemor having a central sleeve spring and two bells arms moves between 290 r.p.m. and 31...
A:
Q: The figure shows a two-stage, vapor-compression refrigeration system with two evaporators and a dire...
A: Here, it is not mentioned that what is asked to determine.so we can calculate here work given to eac...
Q: Consider the surface of a pipe to be smooth with air flowing through it. The air flow rate (flowing ...
A: An isothermal process is characterized by the equation- P1v1=P2v2 where, P1 is the pressure of the a...
Q: 4. What is the length of the longest part?
A: To find Length of longest part.
Q: Discussion: 1-Discuss the source of errors in density measurement experiment. 2-Can you use the same...
A:
PLEASE GIVE ME THE VERY CORRECT ANSWER, THIS IS MY VERY LAST ATTEMPT.
Step by step
Solved in 2 steps with 2 images
- At the instant shown, perform the following tasks using the individual values of lengths OA, AB, BC, OE, CE, L, H, angle ?, angular velocity ???, mass ???, and moment of inertia ???. Length of the walking beam BD is equal to 2·BC. Distance CG from point C to the centre of mass of the walking beam is equal to ??/ 5. Dynamic Forces Analysis : • Present a clearly labelled free body diagram for each rod and the slider; • Calculate the magnitudes and directions of all reaction forces at the instant shown using accelerations obtained in acceleration analysis part; • Calculate the instantaneous torque, T, required to drive the mechanism at the instant shown.Can tutor explain clearly on each questions and provide the solution and calculation 1)Calculate the velocity of the arm, observed by a stationary person on the ground. 2)Draw the FBD of the combined body (crane body, arm and load). 3)Is the combined body stable? Why? 4)Calculate the moment of the following, about wheel A,i) combined crane bodyii) load mass 5)Which combined body’s component(s) will not fail? Why? (Hint: The crane was initially in equilibrium.) 6)What are the various limits (maximum or minimum) for the combined body to be stable? Explain why.Tasks:At the instant shown, perform the following tasks using the individual values of lengths OA, AB, BC,OE, CE, L, H, angle ?, angular velocity ???, mass ???, and moment of inertia ???. Length of thewalking beam BD is equal to 2·BC. Distance CG from point C to the centre of mass of the walkingbeam is equal to ??/5 Velocity Analysis:• Present a clearly labelled velocity diagram;• Calculate the magnitude and direction of:o velocity of point A;o velocity of point B.• Calculate angular velocities of links AB and BC. I need further understanding how to draw and calcualte the velocity diagram
- Can tutor explain step by step and also the explanation such as like why use that formula and why is it this cannot. below is the questions need to answer by using the diagram 1)Calculate the velocity of the arm, observed by a stationary person on the ground. 2)Draw the FBD of the combined body (crane body, arm and load). 3)Is the combined body stable? Why? 4)Calculate the moment of the following, about wheel A,i) combined crane bodyii) load mass 5)Which combined body’s component(s) will not fail? Why? (Hint: The crane was initially in equilibrium.) 6)What are the various limits (maximum or minimum) for the combined body to be stable? Explain why.A team of engineering students designs a medium-size catapult which launches 8-lb steel spheres. The launch speed is vo = 80 ft/sec, the launch angle is ? = 35o above the horizontal, and the launch position is 6 ft above ground level. The students use an athletic field with an adjoining slope topped by an 8-ft fence as shown. Determine: (a) the time duration tf of the flight. (b) the x-y coordinates of the point of first impact. (c) the maximum height h above the horizontal field attained by the ball. (d) the velocity (expressed as a vector) with which the projectile strikes the ground (or the fence).11 - Limit Speed expression depends on which of the following? I. gravitational acceleration II. acceleration of the object III. coefficient of resistance IV. to the density of the air V. to the dimensions of the body A) IV and V B) I, III, IV and V C) II, III and IV D) I E) I and III
- CURVILINEAR MOTION: USING: His initial speed Va = 19.4231 m/s Speed at which he strikes the ground Vb = 40.4097 m/s Time of flight tab = 4.5446 sThe 10 g bullet is fired horizontally at 1200 m/s into the 140 g block resting on a smoothsurface. If the bullet becomes embedded in the block, what is the velocity of the blockimmediately after impact? A) 1125 m/s B) 80 m/sC) 1200 m/s D) 75 m/s Please show all steps in solutionDYNAMICS OF RIGID BODIES (UPVOTE WILL BE GIVEN. PLEASE WRITE THE COMPLETE SOLUTIONS. NO LONG EXPLANATION NEEDED. ANSWER IN 2 DECIMAL PLACES. BOX THE FINAL ANSWERS.) PROBLEM #1 (A AND B ARE AT THE SAME LEVEL) A BALL IS SHOT AT A GROUND LEVEL AT AN ANGLE OF 60 DEGREES WITH THE HORIZONTAL WITH AN INITAL VELOCITY OF 100m/sec. Determine the following: a) FIND THE HEIGHT OF THE BALL (Y) AFTER 2 secs b) FIND THE HIGHEST POINT (H) THE BALL REACHED FROM A c) FIND THE HORIZONTAL DISTANCE (X) OF THE BALL FROM A AFTER 2 secs d) FIND THE VELOCITY OF THE BALL AFTER 2 secs e) FIND THE HORIZONTAL DISTANCE (R) COVERED BY THE BALL FROM A TO B f) FIND THE TIME OF FLIGHT (t) OF THE BALL FROM A TO B.
- DYNAMICS OF RIGID BODIES (UPVOTE WILL BE GIVEN. PLEASE WRITE THE COMPLETE SOLUTIONS. NO LONG EXPLANATION NEEDED. ANSWER IN 2 DECIMAL PLACES. BOX THE FINAL ANSWERS.) PROBLEM #1 (A AND B ARE AT THE SAME LEVEL) A BALL IS SHOT AT A GROUND LEVEL AT AN ANGLE OF 60 DEGREES WITH THE HORIZONTAL WITH AN INITAL VELOCITY OF 100m/sec. Determine the following: a) FIND THE HEIGHT OF THE BALL (Y) AFTER 2 secs b) FIND THE HIGHEST POINT (H) THE BALL REACHED FROM A c) FIND THE HORIZONTAL DISTANCE (X) OF THE BALL FROM A AFTER 2 secsAt the top A of the vehicle moving along line AC in the figureIts speed is 30 m / sec and its weight is 9 kN.Tool radius of curvature 40The reaction force to the tires when reaching point B, which is m,and so that the tires do not separate from the asphalt when it reaches point CWhat should be the radius of curvature of point C? (hA = 6 m andhC = 9 m)Solve Prob. 7.10 assuming that the pick-up truck has front-wheel drive.