A link is offset, as shown in Fig. 4-19 below, to provide clearance for adjacent parts. Determine the maximum shear stress and specify its location (or locations).
Answer = 1970 psi; points A and B
Please show all work. The answer is provided too. Thank You!
Homework Answers
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A link is offset, as shown in Fig. 4-19 below, to provide
clearance for adjacent parts....
This is a nice design-style problem. Max shear will be 5 kips and max M 32.5...
This is a nice design-style problem. Max shear will be 5 kips and max M 32.5 k-ft (plot V and M to show this). Centroid is 8.700 inches up from base, l-162.51in4, max bending stress (at bottom of section, in tension) is 20.9 ksi, and max shear (at centroid) is 1.164 ksi. 19. The simply supported tee beam in orts a uniformly distributed downward itt over its central 10 ft. Its cross-sectional d Prob 6.10-19. ofw I kip/ft it kip/...
Please provide a complete solution for the above example, correct final answers are provided. Problem #5...
Please provide a complete solution for the above example,
correct final answers are provided.
Problem #5 (25 points): Two forces (F1 and F2) are applied to the end of a bent aluminum tube as shown below. Force F1 acts in the -x direction, and force F2 acts in the -z direction. The tube has a hollow, circular cross section with a 3-in outer diameter and a 2-in inner diameter. Points A. B, and lie on the surface of the tube,...
For the beam shown below, determine the flexural stresses, shear stresses, principal stresses, and the angle...
For the beam shown below, determine the flexural stresses, shear
stresses, principal stresses,
and the angle to the principle stress plane at the locations
shown. Can you solve Location one and 4 first< then as many
other as you can please?
Locations 1 and 2 are at the top of the beam, while locations 5
and 6 are at the bottom.
Location 3 is at the beam mid-height, while location 4 is midway
between locations 3 and 5.
Assume that...
Note: help me solve problem 1.33 only using Fig P1.33 Answer: Shear stress A :...
Note: help me solve problem 1.33 only using Fig
P1.33
Answer:
Shear stress A : 3670psi
Shear stress B : 4320psi
Thank you
22 CHAPTER 1 Stress 45° 10 m 200 lb 6 ft l 12 in. 2 ft o A 4 ft 3 ft 36 in. FIG. P1.33 FIG. P1.34 FIG. P1.35 1.33 The bracket is supported by 1/2-in. diameter pins at A and B (the pin at B fits in the 45° slot in the bracket)....
The rod shown below is composed of two pieces: the diameter of piece AC is 3...
The rod shown below is composed of two pieces: the diameter of piece AC is 3 in, and the diameter of piece CD is 2 in. Both pieces are made of brass: Young's modulus is E = 15x10 psi and the shear modulus is G = 5.6x10 psi. The applied external axial forces are Pc = 50 kips and Po = 30 kips. The applied extemal torques are Tg = 25 kip in and To= 10 kip in. (Hint: for...
Q.1) The cross-section shown below of a simply supported beam is subjected to a maximum shear...
Q.1) The cross-section shown below of a simply supported beam is subjected to a maximum shear force of 20 kN. Determine the corresponding shearing stress at points a and b. Also determine the maximum shear stress in the cross- section and state its location 40 mm 4 mm 60 mm 14 mm 4 mm 20 mm 28 mm 20 mm
P4.3: The crank-slider offset mechanism shown in Figure P4.3 has the link lengths: Las - 4",...
P4.3: The crank-slider offset mechanism shown in Figure P4.3 has the link lengths: Las - 4", Lap = 24", Loc=0.19". The location of COM is as follows: LAG = 2.330"; LEG2 = 12"; LDG: = 0". In the initial position (home position), 0.19" Tact HO CO 1" o 28 the crank AB makes 0° with the horizontal, where the coordinates of contact point Care (28", 1"). The crank 1 rotates counterclockwise with the angu- lar displacement 0 = 2t (rad),...
i want just (F) 2. (40 points) In the engine mechanism shown in fig. 2, the...
i want just (F)
2. (40 points) In the engine mechanism shown in fig. 2, the crank AB has a constant clockwise angular velocity of 2000 rpm.And the connecting rod is a uniform, slender rod whose center of mass is in its geometric center G. For the crank position shown determine l 8 in 3in Figure 2: Problem 2 (a) (2.5 points) The velocity of B (b) (5 points) The angular velocity of the connecting rod BD, and the velocity...
L/2 L/4 L/2 L/4 P/2 P/2 3 pt. Loading 4 pt. Loading 1. The schematics above show two common mecha...
Could I get help on question 1 and 2 please
L/2 L/4 L/2 L/4 P/2 P/2 3 pt. Loading 4 pt. Loading 1. The schematics above show two common mechanical testing geometries - a 3 point loaded specimen and 4 point loaded specimen. The samples you would test in these geometries would be called "flexure" samples. P is the load measured by the load cell Samples would actually be longer than L but the contact points determine the loading profile...
static and material strength Problem 4- The Fig. below shows a shaft carrying a pulley A...
static and material strength
Problem 4- The Fig. below shows a shaft carrying a pulley A and a gear B and supported in two bearings C and D. The shaft transmits 30 kW at 200 r.p.m. The tangential force Ft on the gear B acts vertically upwards as shown. The pulley delivers the power through a belt to another pulley of equal diameter vertically below the pulley A. The ratio of tensions T1/T2 is equal to 2.5. The gear and...
This is a nice design-style problem. Max shear will be 5 kips and max M 32.5 k-ft (plot V and M to show this). Centroid is 8.700 inches up from base, l-162.51in4, max bending stress (at bottom of section, in tension) is 20.9 ksi, and max shear (at centroid) is 1.164 ksi. 19. The simply supported tee beam in orts a uniformly distributed downward itt over its central 10 ft. Its cross-sectional d Prob 6.10-19. ofw I kip/ft it kip/...
Please provide a complete solution for the above example,
correct final answers are provided.
Problem #5 (25 points): Two forces (F1 and F2) are applied to the end of a bent aluminum tube as shown below. Force F1 acts in the -x direction, and force F2 acts in the -z direction. The tube has a hollow, circular cross section with a 3-in outer diameter and a 2-in inner diameter. Points A. B, and lie on the surface of the tube,...
For the beam shown below, determine the flexural stresses, shear
stresses, principal stresses,
and the angle to the principle stress plane at the locations
shown. Can you solve Location one and 4 first< then as many
other as you can please?
Locations 1 and 2 are at the top of the beam, while locations 5
and 6 are at the bottom.
Location 3 is at the beam mid-height, while location 4 is midway
between locations 3 and 5.
Assume that...
Note: help me solve problem 1.33 only using Fig
P1.33
Answer:
Shear stress A : 3670psi
Shear stress B : 4320psi
Thank you
22 CHAPTER 1 Stress 45° 10 m 200 lb 6 ft l 12 in. 2 ft o A 4 ft 3 ft 36 in. FIG. P1.33 FIG. P1.34 FIG. P1.35 1.33 The bracket is supported by 1/2-in. diameter pins at A and B (the pin at B fits in the 45° slot in the bracket)....
The rod shown below is composed of two pieces: the diameter of piece AC is 3 in, and the diameter of piece CD is 2 in. Both pieces are made of brass: Young's modulus is E = 15x10 psi and the shear modulus is G = 5.6x10 psi. The applied external axial forces are Pc = 50 kips and Po = 30 kips. The applied extemal torques are Tg = 25 kip in and To= 10 kip in. (Hint: for...
Q.1) The cross-section shown below of a simply supported beam is subjected to a maximum shear force of 20 kN. Determine the corresponding shearing stress at points a and b. Also determine the maximum shear stress in the cross- section and state its location 40 mm 4 mm 60 mm 14 mm 4 mm 20 mm 28 mm 20 mm
P4.3: The crank-slider offset mechanism shown in Figure P4.3 has the link lengths: Las - 4", Lap = 24", Loc=0.19". The location of COM is as follows: LAG = 2.330"; LEG2 = 12"; LDG: = 0". In the initial position (home position), 0.19" Tact HO CO 1" o 28 the crank AB makes 0° with the horizontal, where the coordinates of contact point Care (28", 1"). The crank 1 rotates counterclockwise with the angu- lar displacement 0 = 2t (rad),...
i want just (F)
2. (40 points) In the engine mechanism shown in fig. 2, the crank AB has a constant clockwise angular velocity of 2000 rpm.And the connecting rod is a uniform, slender rod whose center of mass is in its geometric center G. For the crank position shown determine l 8 in 3in Figure 2: Problem 2 (a) (2.5 points) The velocity of B (b) (5 points) The angular velocity of the connecting rod BD, and the velocity...
Could I get help on question 1 and 2 please
L/2 L/4 L/2 L/4 P/2 P/2 3 pt. Loading 4 pt. Loading 1. The schematics above show two common mechanical testing geometries - a 3 point loaded specimen and 4 point loaded specimen. The samples you would test in these geometries would be called "flexure" samples. P is the load measured by the load cell Samples would actually be longer than L but the contact points determine the loading profile...
static and material strength
Problem 4- The Fig. below shows a shaft carrying a pulley A and a gear B and supported in two bearings C and D. The shaft transmits 30 kW at 200 r.p.m. The tangential force Ft on the gear B acts vertically upwards as shown. The pulley delivers the power through a belt to another pulley of equal diameter vertically below the pulley A. The ratio of tensions T1/T2 is equal to 2.5. The gear and...
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n=0:399;
t=0:1/fs: n*1/fs-1/fs;
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