1
|
Wt. Of Cement Bag
|
=
|
50
|
KG
|
||
Density of Cement
|
=
|
1440
|
kg/m³
|
|||
Density
|
=
|
Mass / Volume
|
||||
Volume of Cement Bag
|
=
|
0.034722222
|
M³
|
|||
1 M³
|
=
|
1000
|
Litre
|
|||
Volume
|
=
|
34.72
|
Litre
|
Approx
|
35 Litre
|
|
Water Cement Ratio in Concrete
|
=
|
40 % to 45% of Volume of Cement in
Litre
|
||||
40%
|
=
|
14.00
|
Litre
|
|||
45%
|
=
|
15.75
|
Litre
|
|||
2
|
Consider
|
|||||
Qt. of Concrete
|
=
|
1
|
Cub.mt.
|
|||
Ratio of Cement,Fine & Coarse
|
=
|
1:3:6
|
||||
Calculate Qty. in Kg
|
||||||
Consider Coefficient is between
|
=
|
1.54 to 1.57
|
||||
a
|
Cement
|
=
|
1.54/(1+3+6)
|
|||
0.154
|
m³
|
|||||
Change into KG
|
=
|
221.76
|
Kg
|
|||
No. of Bags
|
=
|
4.4352
|
||||
Approx
|
5 Bag
|
|||||
b
|
Calculate Qty. in Kg
|
|||||
Consider Coefficient is between
|
=
|
1.54 to 1.57
|
||||
Fine
|
=
|
1.54/(1+3+6)
|
||||
0.462
|
m³
|
16.31
|
Cub. Ft
|
|||
c
|
Calculate Qty. in Kg
|
|||||
Consider Coefficient is between
|
=
|
1.54 to 1.57
|
||||
Coarse
|
=
|
1.54/(1+3+6)
|
||||
0.924
|
m³
|
32.63
|
Cub. Ft
|
|||
Basic of Civil Engineering
Tuesday 30 August 2016
Quantity of Ingredients of Concrete as per desire ratio.
Thursday 30 June 2016
Question & Answer for Civil Engineers
1. What are the causes of building collapse?
Ans. The Passage of time is one reason. Buildings also collapse due to weak foundations. Earthquakes, hurricanes and other natural disasters can also damage the structure of the buildings and cause it to collapse. Bombings or demolition of buildings is also other reasons.
Ans. The Passage of time is one reason. Buildings also collapse due to weak foundations. Earthquakes, hurricanes and other natural disasters can also damage the structure of the buildings and cause it to collapse. Bombings or demolition of buildings is also other reasons.
2. What are the applications of modulus
of elasticity?
Ans. As the term implies, "Modulus of Elasticity” relates to the elasticity or "flexibility" of a material. The value of modulus of elasticity is very much significant relating to deflection of certain materials used in the construction industry. Take for example the general E value of mild carbon steel is about 200 GPA compared to about 70 GPA for aluminum. This simply translate that aluminum is 3 times flexible than steel.
Ans. As the term implies, "Modulus of Elasticity” relates to the elasticity or "flexibility" of a material. The value of modulus of elasticity is very much significant relating to deflection of certain materials used in the construction industry. Take for example the general E value of mild carbon steel is about 200 GPA compared to about 70 GPA for aluminum. This simply translate that aluminum is 3 times flexible than steel.
3. How do you measure concrete?
Ans. Cubic feet, Cubic yards, Cubic Meter
Ans. Cubic feet, Cubic yards, Cubic Meter
4. Which is stronger solid steel rod or
hollow steel pipe?
Ans. On a per pound basis, steel pipe is stronger in bending and is less likely to buckle in axial compression.
Ans. On a per pound basis, steel pipe is stronger in bending and is less likely to buckle in axial compression.
5. What is aggregate?
Ans. Aggregate is the component of a composite material used to resist compressive stress.
6. How do you calculate the power of a
centrifugal pump?
Ans. The input power, that is, the power required to operate the pump should be stated in Hp (horsepower) on the pump's nameplate. It can also be calculated by the 3-phase power equation:
P(in Hp) = VI(1.7 c) = Rated Voltage x Rated Current x 1.73/ %Efficiency
If this is a consumer grade pump that operates on 120 Vac, then the equation becomes P = VI, simply multiply the operating voltage, 120 x current (which is the number followed by the letter "A".The output power, which really is not technically power, but rated in Gpm (gallons per minute), or capacity should also be on the nameplate. If you have the make, model, and (not necessarily needed) the serial number (also on the nameplate) you could call the manufacturer's customer service dept. As an application engineer, I have contacted countless manufacturers’, and service dept's for assistance. It is now big deal to them, they will be happy to answer your questions.
7. What is rigging?
Ans. In sailing, the ropes used to move the sails around so the boat will move in the right direction when the wind blows.
Ans. In sailing, the ropes used to move the sails around so the boat will move in the right direction when the wind blows.
8. What is absolute pressure?
Ans. Absolute pressure is simply the addition of the observed gage pressure plus the value of the local atmospheric pressure.
Ans. Absolute pressure is simply the addition of the observed gage pressure plus the value of the local atmospheric pressure.
9. How do we calculate absolute
pressure?
Ans. Absolute is equal to gauge pressure plus atmospheric.
Ans. Absolute is equal to gauge pressure plus atmospheric.
10. What is Gravity flow?
Ans. Gravity flow is fluid flowing due to the forces of gravity alone and not to an applied pressure head. In the Bernoulli equation, the pressure term is omitted, and the height and velocity terms are the only ones included.
Ans. Gravity flow is fluid flowing due to the forces of gravity alone and not to an applied pressure head. In the Bernoulli equation, the pressure term is omitted, and the height and velocity terms are the only ones included.
11. What do you mean by honeycomb in
concrete?
Ans. Some people call it an air pocket in the concrete or a void. It is the exposed course aggregates on surface of concrete without covered by mortar or surrounding the aggregate particles.
Ans. Some people call it an air pocket in the concrete or a void. It is the exposed course aggregates on surface of concrete without covered by mortar or surrounding the aggregate particles.
12. What is the purpose of the gap in
the road on this bridge?
Ans. Purpose of the gap in the road is to allow the road to expand and contract with temperature changes without causing damage or deformation to the road.
Ans. Purpose of the gap in the road is to allow the road to expand and contract with temperature changes without causing damage or deformation to the road.
13. What is a projection line?
Ans. Projection line is the way, in which the earth is shown on a flat piece of Paper.
Ans. Projection line is the way, in which the earth is shown on a flat piece of Paper.
14. What are moment of inertia and its
importance in civil engineering?
Ans. The moment of inertia measures the opposition any kind of body will have against a certain momentum (along that same axis) trying to rotate that body.
Ans. The moment of inertia measures the opposition any kind of body will have against a certain momentum (along that same axis) trying to rotate that body.
15. What is the absolute pressure scale?
Ans. Absolute pressure is calculated from a vacuum (0 PSI) and atmospheric pressure is 14.7 PSIa or 14.7 PSI above a vacuum 1 PSI on a tire pressure gauge is called 1 PSIg = 15.7 PSIa 10 PSIg=24.7 PSIa 100 PSIg=114.7 PSIa etc.
Ans. Absolute pressure is calculated from a vacuum (0 PSI) and atmospheric pressure is 14.7 PSIa or 14.7 PSI above a vacuum 1 PSI on a tire pressure gauge is called 1 PSIg = 15.7 PSIa 10 PSIg=24.7 PSIa 100 PSIg=114.7 PSIa etc.
16. What is diversion tunnel in a dam?
Ans. When a dam is to be built, a diversion tunnel is usually bored through solid rock next to the dam site to by pass the dam construction site. The dam is built while the river flows through the diversion tunnel.
Ans. When a dam is to be built, a diversion tunnel is usually bored through solid rock next to the dam site to by pass the dam construction site. The dam is built while the river flows through the diversion tunnel.
17. How do you maintain water pressure?
Ans. If you have water pressure and wish to maintain it, do not cause flow in the line, which will reduce pressure due to friction. To keep pressure up, reduce friction by increasing the line size or eliminating some other restriction.
Ans. If you have water pressure and wish to maintain it, do not cause flow in the line, which will reduce pressure due to friction. To keep pressure up, reduce friction by increasing the line size or eliminating some other restriction.
18. What are some structures that may be
subjected to fatigue?
Ans. Bridges, hydraulic presses, burners trains
Ans. Bridges, hydraulic presses, burners trains
19. Why does the pressure increase under
soil?
Ans. Soil pressure increases with depth due to the overburden or self-weight of the soil and due to loads imposed upon the soil.
For example, the pressure variation below the depth of soil is linear and the relation is given by pressure = unit wt * depth. As depth increases, there will be a linear increase in the soil pressure.
Ans. Soil pressure increases with depth due to the overburden or self-weight of the soil and due to loads imposed upon the soil.
For example, the pressure variation below the depth of soil is linear and the relation is given by pressure = unit wt * depth. As depth increases, there will be a linear increase in the soil pressure.
20. What is the distance between railway
tracks?
Ans. 4 feet, 8 1/2 inches.
Ans. 4 feet, 8 1/2 inches.
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