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Deck 1: Earth Pressure Theory, Welding, and Slab Design
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Deck 1: Earth Pressure Theory, Welding, and Slab Design
1
Originally, Rankine's theory of lateral earth pressure can be applied to only______________
A)cohesion less soil
B)cohesive soil
C)fine grained soil
D)coarse grained soil
A)cohesion less soil
B)cohesive soil
C)fine grained soil
D)coarse grained soil
cohesion less soil
2
Rankine's theory of lateral pressure was extended to other soil by______________
A)resal and bell
B)mohr
C)none of the mentioned
D)all of the mentioned
A)resal and bell
B)mohr
C)none of the mentioned
D)all of the mentioned
resal and bell
3
Based on the assumptions of Rankine's theory, the soil mass is______________
A)stratified
B)submerged
C)homogeneous
D)all of the mentioned
A)stratified
B)submerged
C)homogeneous
D)all of the mentioned
homogeneous
4
Which of the following cases for cohesion less backfill in Rankine's theory is considered?
A)submerged backfill
B)moist backfill with no surcharge
C)backfill with sloping surface
D)all of the mentioned
A)submerged backfill
B)moist backfill with no surcharge
C)backfill with sloping surface
D)all of the mentioned
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5
The factor that is responsible for inclination of resultant pressure to the retaining wall is______________
A)frictional force
B)surcharge
C)earth pressure
D)weight of the wall
A)frictional force
B)surcharge
C)earth pressure
D)weight of the wall
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6
If the sand filled behind the retaining wall with saturated water with water, then the possible lateral pressure is______________
A)lateral pressure due to submerged weight and lateral pressure due to water
B)lateral pressure due to retaining wall
C)none of the mentioned
D)all of the mentioned
A)lateral pressure due to submerged weight and lateral pressure due to water
B)lateral pressure due to retaining wall
C)none of the mentioned
D)all of the mentioned
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7
The earth pressure at rest exerted on a retaining structure can be calculated using
A)theory of plasticity
B)theory of elasticity
C)mohr's theory of rupture
D)none of the mentioned
A)theory of plasticity
B)theory of elasticity
C)mohr's theory of rupture
D)none of the mentioned
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8
The expression for K0 as given by Jacky is
A)k0 = 1 - sin ?
B)k0 = sin ?
C)k0 = 1 - cos ?
D)k0 = 1 + sin ?
A)k0 = 1 - sin ?
B)k0 = sin ?
C)k0 = 1 - cos ?
D)k0 = 1 + sin ?
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9
What will be the coefficient of earth pressure at rest for a rigid retaining wall, If the backfill consists of cohesion less soil having ? = 26°?
A)0.1295
B)0.6552
C)0.5616
D)0.7383
A)0.1295
B)0.6552
C)0.5616
D)0.7383
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10
A force 2P is acting on the double transverse fillet weld. Leg of weld is h and length l. Determine the shear stress in a plane inclined at ? with horizontal.
A)psin?(sin?+cos?)/hl
B)p(sin?+cos?)/hl
C)pcos?(sin?+cos?)/hl
D)none of the listed
A)psin?(sin?+cos?)/hl
B)p(sin?+cos?)/hl
C)pcos?(sin?+cos?)/hl
D)none of the listed
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11
Maximum shear stress in transverse fillet weld of leg h and length l is
A)p/hl
B)1.21p/hl
C)p/1.21hl
D)none of the listed
A)p/hl
B)1.21p/hl
C)p/1.21hl
D)none of the listed
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12
Hollow saddle key is superior to flat saddle key as far as power transmitting capability is concerned.
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13
Saddle key is more suitable than sunk key for heavy duty applications.
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14
The main advantage of sunk key is that it is a______________drive.
A)positive
B)negative
C)neutral
D)none of the listed
A)positive
B)negative
C)neutral
D)none of the listed
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15
Woodruff key permits______________movement b/w shaft and the hub.
A)axial
B)radial
C)eccentric
D)none of the listed
A)axial
B)radial
C)eccentric
D)none of the listed
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16
Determine the length of kennedy key required to transmit 1200N-m and allowable shear in the key is 40N/mm². The diameter of shaft and width of key can be taken as 40mm and 10mm respectively.
A)49mm
B)36mm
C)46mm
D)53mm
A)49mm
B)36mm
C)46mm
D)53mm
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17
Splines are keys.
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18
The prestressed concrete slab systems are ideally suited for______________
A)roofs
B)slabs
C)beam
D)column
A)roofs
B)slabs
C)beam
D)column
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19
The precast prestressed hollow core slabs, with or without topping is an important
A)floor panels
B)tendons
C)wall coatings
D)reinforcements
A)floor panels
B)tendons
C)wall coatings
D)reinforcements
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20
One way slabs may be supported across the entire width of the slab by means of
A)columns
B)piers
C)ridges
D)footings
A)columns
B)piers
C)ridges
D)footings
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21
The simple or continuous slabs are analyzed for______________
A)design foundation
B)design reinforcement
C)design moments
D)design slab
A)design foundation
B)design reinforcement
C)design moments
D)design slab
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22
The design of a two-way-slab supported on all four sides involves the computation of
A)moments
B)cross sections
C)bending moment
D)deformations
A)moments
B)cross sections
C)bending moment
D)deformations
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23
A simple prestressed flat slab is generally supported by a network of______________
A)beams
B)columns
C)spans
D)deflections
A)beams
B)columns
C)spans
D)deflections
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24
The proportioning of tendons in design of prestressed concrete simple flat slab between the column and middle strips may be based on______________
A)moments
B)codes
C)deflections
D)loads
A)moments
B)codes
C)deflections
D)loads
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25
The design principles of continuous flat slab floors are similar to______________
A)one way slab
B)two way slab
C)continuous
D)deformed
A)one way slab
B)two way slab
C)continuous
D)deformed
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