Shaft Disc
Q: The strength of solid shaft is of hollow shaft of same weight. the strength
A: The torque transmitted by the hollow shaft is more than a solid shaft for the same weight and…
Q: The shaft in the front wheel of bike is_
A: Given data To select the correct opton.
Q: The structure diagram of the output shaft is shown as the following, please point out the wrong…
A: Please find the answer in the next page.
Q: Drive Shaft in SINUMERIK
A: A drive shaft is a vehicle shaft that transmits power from the transmission to the wheels. The…
Q: Differentiate between single acting and double acting cylinders.
A: Differentiate between Single Acting & Double Acting Cylinder :
Q: Four-Stroke Cycle 360, 1. A revolution is degrees of crankshaft rotation. 360 2. The camshaft…
A: As per our guidelines we are supposed to solve 3 subparts if multiple subparts are asked. Kindly…
Q: thread the outer Jiem 10
A: Given data Outer diameter =26mm Inner diameter =18mm
Q: What causes suction of fluid into the gear pump? a. when pressure drops during engagement of teeth…
A: a. when pressure drops during engagement of teeth at the suction sideb. when pressure increases…
Q: what is the MMC of shaft dimension 1.375 /- .030?
A: Given: The dimension of shaft is 1375/-0.30 MMC :MMC stand for Maximum Material Condition.
Q: Design the shaft
A:
Q: thread nut runout shank radius head thread length grip length→ nominal length
A: Given Bolt To find Better manufacturing process
Q: The axle of a front wheel of a bicycle shall belong to_____. A.Rotating shaft B. Drive shaft…
A: I think its answer should be part C- mandrel.
Q: iction between the piston and cylin -addle-wheel shaft. В 35
A:
Q: Multiple choice Which wheelbarrow shown is well designed
A: Given:
Q: The helix angles of two mating crossed axis helical gears does not have to be the same. Select one:…
A: the given statement is false.
Q: Compute the piston displacement of a radial engine having 9 cylinders, a bore of 5 in. and stroke of…
A: The piston displacement of a radial engine is is 884 cu. in.
Q: tive and compression negative. 45°
A: Draw the free body diagram for the above problem as follows.
Q: roké of 20mm r (Omm r 00°. The maxin
A:
Q: The maximum permissible torque applied to the shaft _____________
A: Given Data : Maximum permissible torque applied to the shaft.
Q: the torque required to prod
A:
Q: Choose the Proper Answer for EACH of the followings: i) The under-square engine is the engine where:…
A: As the student posted multiple question, but as per the guidelines, I can solve only first question.…
Q: Identify the part not belonging to micrometer. Ratchet Clamp O Locknut Frame
A: Given :- Identity the part not belongung to micrometer Ratchet Clamp Locknut Frame
Q: (a) the angular velocity of each planetary gear, (b) the angular velocity of the spider connecting…
A: For solution refer below images.
Q: ratio of connecting rod length to crank radius.
A: Given; Consider the triangular forned by the connecting rodand the crank of an IC engine as two…
Q: 1000 rpm
A: 5) 104.72rad/s 6) 16.67s 7) 91.89N/m
Q: tail force
A: Tail force is 15kN
Q: What is the ratio between the angular velocities of gear L and I, w and wi?
A: speed of box E = 3m/s V = r * ω3 = 0.5 * ωIωI = 6 rad/sec
Q: Which of the following will brake of blades O a.
A: Angle Of Blades
Q: Instructions: Identify the wheel cylinder parts in the drawing. Place the identifying letter next to…
A: Cup - C Cylinder - D Piston - B
Q: Critical speed of the shaft in rpm.
A: Given; If two nodes are observed at a frequency of; N=1800 rpmFirst frequency=fnSecond frequency=4…
Q: maximum output power from the Pelton wheel
A: Given: For a pelton wheel with a given water jet velocity, the maximum output power from the Pelton…
Q: flyw
A: compare governor and flywheel
Q: In most of internal combustion engines, crankshaft bearing is Select the correct answer below: A.…
A: Concept: Hydrodynamic bearing: 1) In this bearing, two rubbing surfaces of bearing are separated by…
Q: cylinders
A: From capstan equation T2T1=eμ∑iθi Since distances are same hence angle of wrap for cylinders 1…
Q: Determine whether the mechanism below is mandatory movement. body hydraulic cylinder
A: Solution:
Q: The secondary unbalanced force is maximum times in one revolution of the crank.
A:
Q: The cam and the follower have a ------ which constitute as a higher pair.
A: Cam and follower is a mechanism which is used to convert rotation to linear ( a reciprocation )…
Q: In what direction must the bottom of a tire andwheel assembly be moved to add more positivecamber?
A: Given Data : Bottom of tire Wheel assembly
Q: spur gear has a pitch diameter 3. Calculate its clearance
A:
Q: the total force (in Newton) exerted by a tooth of the pinion on the tooth on a mating
A: Given data, Spur pinion of pitch diameter ,d= 50 mmRotation,ω=3 rad/sPower,p= 3 KWPressure…
Q: Q2.Types of Shaft Coupling.
A: Types of shaft coupling :-
Q: ) The angular velocity of rod DE 1
A:
Q: (a) the minimum diameter required for shaft BC. (b) the minimum diameter required for bolt A.
A:
Q: The circular pitch of the gear is
A: Given; Pitch circle diameter= D No. of teeth= TDetermine the circular pitch of the gear ?
Q: The critical speed of the shaft is
A:
Q: "his shaft is subje - 10,000 in-lb., fom and F - 20,000 lb approsch, deter
A:
Q: s of m1 and
A: To find m1 and m2
Q: RS=102.3mm; PS
A:
Q: Identify the part not belonging to micrometer. Frame Ratchet Locknut Clamp
A: Identify the part not belonging to micrometer. Frame Ratchet Locknut Clamp
Q: It also carries two conc
A: given:
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Solved in 2 steps with 2 images
- 0.5 m, k = 500 N/m, and k = 40 N.m/rad, In the system shown, m = 10 kg, r = 0.3 m, Ko where ko is the radius of gyration of the pulley about point 0. There is no slippage between the cord and the pulley. Replace the system with an equivalent { a) torsional spring and mass moment of inertia at point 0, and b) translational mass and spring at point A. т, Ко kt А k m wwAnswer the following problem and write your complete solution and graph. 1. Write the equation of motion for the system given in the figure for the case that F(t) = F cos wt and the surface is friction free. Does the angle affect the magnitude of oscillation? Diagram: wwwm mass F(0) Fig. 4.4 Mass tied on the spring and DashpotProb. 2: An undamped system vibrates with a frequency of 20 Hz and amplitude of 1 mm. Calculate the maximum amplitude of the system's velocity and acceleration.
- Fundamental.8 deals with the equation of motion. The use of the equation of motion to solve this problem is mandatory. Solution using other approaches (conservation of energy...) will be automatically considered false. For the problem related to Fundamental.8 sketches of the system showing: • the respective velocity and acceleration and the frame of reference considered • the forces acting on the system of considered, in other words, a free body diagram (FBD) are mandatory. Their absences will automatically make the problem false. A force P is applied at an angle =39 to a 311-kg cart. 0.4 m 0.3 m 0.08 m The acceleration of the cart is 2 m.s-². G B 0.2 m 0.3 m 1. What is the magnitude of the force P (answer on your hand-written work and in the cell below)? 2. What are the reaction at A and B?Fundamental.8 deals with the equation of motion. The use of the equation of motion to solve this problem is mandatory. Solution using other approaches (conservation of energy...) will be automatically considered false. For the problem related to Fundamental.8 sketches of the system showing: • the respective velocity and acceleration and the frame of reference considered • the forces acting on the system of considered, in other words, a free body diagram (FBD) are mandatory. Their absences will automatically make the problem false. A force P is applied at an angle 0 =51 to a 869-kg cart. The kinetic friction coefficient on wheels is 0. P 0 0.4 m 0.3 m 0.08 m The acceleration of the cart is 1.2 m.s2. G B 0.2 m 0.3 m 1. What is the magnitude of the force P (answer on your hand-written work and in the cell below)? 2. What are the reaction at A and B?(b) A system of mass rotation rod has been run at = 40 rad/s as shown in Figure Q1. The system has the following data, (i) (ii) Mass Mass A Mass B Mass C Weigh 1.2 kg 1.8 kg Mc Radius 1.135 m 0.822 m Re Angle 113.4° 48.8° вс Find counterweight mass-radius product and its angular location needed to balance the system. Distinguish the relationship between mass, radius and angle for counterweight mass system.
- Fundamental.9 deals with the equation of motion. The use of the equation of motion to solve this problem is mandatory. Solution using other approaches (conservation of energy...) will be automatically considered false. For the problem related to Fundamental.9 sketches of the system showing: • the respective velocity and acceleration and the frame of reference considered • the forces acting on the system of considered, in other words, a free body diagram (FBD) are mandatory. Their absences will automatically make the problem false. The uniform 19 lb beam is initially at rest when the forces FA applied at A (on its left hand-side) is vertical and FB applied at B (on its right hand-side) forms an angle 0=56° with the horizontal. FA FB A В. B 0 12 ft Determine FA (answer in the cell bellow) and FB to make sure that: • the beam has no angular acceleration • its horizontal horizontal acceleration is 1.6-times smaller than its vertical accelerationMechanical Vibration Question is image and also written. 1) Using Lagrange's equation derive the equation of motion of the system given below. Gravitational acceleration is taken downwards.Fundamental.7 deals with the equation of motion. The use of the equation of motion to solve this problem is mandatory. Solution using other approaches (conservation of energy ...) will be automatically considered false. For the problem related to Fundamental.7 sketches of the system showing: • the respective velocity and acceleration and the frame of reference considered • the forces acting on the system of considered, in other words, a free body diagram (FBD) are mandatory. Their absences will automatically make the problem false. B r C The pendulum bob B has a weight of 5lb and is released from rest in the position shown, 0 =0°. Determine the tension in string BC of length r = 5 ft at the instant the bob reaches point D, =7º.
- ms mp mL A small frog of mass me clings to the left end of a uniform pole of mass mp and length L, and a large frog of mass my clings to the right end of the pole as shown in this top-down view. The system is rotating about its center of mass. The large frog is moving with tangential speed UL. Treat the frogs as point masses. Show all work and solve in terms of given variables. A. Find the center of mass of the system measured from the right end of the pole. B. What is the magnitude of the angular velocity of the system?Fundamental.7 deals with the equation of motion. The use of the equation of motion to solve this problem is mandatory. Solution using other approaches (conservation of energy ...) will be automatically considered false. For the problem related to Fundamental.7 sketches of the system showing: • the respective velocity and acceleration and the frame of reference considered • the forces acting on the system of considered, in other words, a free body diagram (FBD) are mandatory. Their absences will automatically make the problem false. B The pendulum bob B has a weight of 3lb and is released from rest in the position shown, 0 =0°. Determine the tension in string BC of length r = 4 ft at the instant the bob reaches point D, =4°.Fundamental.7 deals with the equation of motion. The use of the equation of motion to solve this problem is mandatory. Solution using other approaches (conservation of energy ...) will be automatically considered false. For the problem related to Fundamental.7 sketches of the system showing: • the respective velocity and acceleration and the frame of reference considered • the forces acting on the system of considered, in other words, a free body diagram (FBD) are mandatory. Their absences will automatically make the problem false. At the instant 0=50 degrees, the boy's center of mass G has a downward speed VG =11-ft/s. Determine: l-ft G • the rate of increase in his speed, • and the tension in each of the two supporting cords of the swing at this instant (put your answer in the cell below) The boy weights 42-lb. The rope length is 11-ft. Neglect his size and the mass of the seat and cords.