Our website is made possible by displaying online advertisements to our visitors. Please consider supporting us by whitelisting our website.

Engineering Mechanics

Determine the approximate amount of paint needed to cover the surface of the water storage tank. Assume that a liter of paint covers 2.5 m2. Also, what is the total inside volume of the tank.

Question: Determine the approximate amount of paint needed to cover the surface of the water storage tank. Assume that a liter of paint covers 2.5 m2. Also, what is the total inside volume of the tank.
[A].

27.6 liters of paint, V = 52.6 m3

[B].

20.1 liters of paint, V = 50.3 m3

[C].

26.4 liters of paint, V = 56.5 m3

[D].

25.1 liters of paint, V = 55.0 m3

Answer: Option C

Explanation:

No answer description available for this question.

Determine the approximate amount of paint needed to cover the surface of the water storage tank. Assume that a liter of paint covers 2.5 m2. Also, what is the total inside volume of the tank. Read More »

Center Of Gravity And Centroid, Engineering Mechanics

Determine the volume of concrete needed to construct the circular curb.

Question: Determine the volume of concrete needed to construct the circular curb.
[A].

V = 1.083 m3

[B].

V = 1.309 m3

[C].

V = 1.756 m3

[D].

V = 8.67 m3

Answer: Option A

Explanation:

No answer description available for this question.

Determine the volume of concrete needed to construct the circular curb. Read More »

Center Of Gravity And Centroid, Engineering Mechanics

Determine the distance to the centroidal axis of the beam’s cross-sectional area.

Question: Determine the distance to the centroidal axis of the beam’s cross-sectional area.
[A].

= 112.3 mm

[B].

= 125.0 mm

[C].

= 100.0 mm

[D].

= 91.7 mm

Answer: Option D

Explanation:

No answer description available for this question.

Determine the distance to the centroidal axis of the beam’s cross-sectional area. Read More »

Center Of Gravity And Centroid, Engineering Mechanics

Determine the distance to the centroid axis of the beam’s cross-sectional area. Neglect the size of the corner welds at A and B for the calculation.

Question: Determine the distance to the centroid axis of the beam’s cross-sectional area. Neglect the size of the corner welds at A and B for the calculation.
[A].

= 75.2 mm

[B].

= 97.5 mm

[C].

= 85.9 mm

[D].

= 102.5 mm

Answer: Option C

Explanation:

No answer description available for this question.

Determine the distance to the centroid axis of the beam’s cross-sectional area. Neglect the size of the corner welds at A and B for the calculation. Read More »

Center Of Gravity And Centroid, Engineering Mechanics

Locate the center of gravity of the homogeneous “bell-shaped” volume formed by revolving the shaded area about the y axis.

Question: Locate the center of gravity of the homogeneous “bell-shaped” volume formed by revolving the shaded area about the y axis.
[A].

= 3.33 ft

[B].

= 2.80 ft

[C].

= 3.20 ft

[D].

= 3.00 ft

Answer: Option A

Explanation:

No answer description available for this question.

Locate the center of gravity of the homogeneous “bell-shaped” volume formed by revolving the shaded area about the y axis. Read More »

Center Of Gravity And Centroid, Engineering Mechanics

Locate the center of gravity of the volume generated by revolving the shaded area about the z axis. The material is homogeneous.

Question: Locate the center of gravity of the volume generated by revolving the shaded area about the z axis. The material is homogeneous.
[A].

= 2.80 ft

[B].

= 2.50 ft

[C].

= 2.67 ft

[D].

= 3.00 ft

Answer: Option C

Explanation:

No answer description available for this question.

Locate the center of gravity of the volume generated by revolving the shaded area about the z axis. The material is homogeneous. Read More »

Center Of Gravity And Centroid, Engineering Mechanics