Given an elevated sign (billboard) as shown in the figure, determine the measurements that the base must have to support the given conditions. mg- W= 12,000 kg 12 m Wind = 70 km/h Desired desigu: I t=? de=? Concrete h= ?
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- Suppose that a = 1.96 m and b = 1.4 m. (Figure 1) Figure y = x¹/2 < 1 of 1 Part A Determine the moment of inertia for the shaded area about the axis. Express your answer to three significant figures and include the appropriate units. I₂ = Submit μA Value Provide Feedback Request Answer Units ?4. What is the ground water travel time from well MW1 to well MW2 (days) according to the following figure's condition? (Hint: Solve by Darcy's Law) - TOC stands for Top of Casing, and is an elevation with respect to a common datum DTW stands for Depth to water, which is the distance from the TOC to the water table MW1 MWI MW2 L = K= 900 ft TOC (ft) 18 ft/day 0.24 1052.6 1045.3 DTW (ft) 12.5 14.2 MW2Assignment #1- Drive the following phase relationship equations by combining the basic weight- volume equations. Yw (Gs + eS) 1+e Ya = GSYW(1 – n) Ya (1+ e) Yw = Gs S = Yw G5 1 Ya W, n = 1– V GgYw 3
- Complete this chart. P2 V2 T2 1. 30 psia 20 cu in constant 50 psia cu in constant 2. 25 psia 14 cu in constant psia 21 cu in constant 10 cu ft 20 cu ft 3. 15 kPa constant КРа constant 4. 36 psig 8 cu in constant 48 psig cu in constant 5. 20 psia 27°C -psia 77°C constant constant 6. 10 psia constant 17°C 15 psia constant °C 7. 12 psia 49 cm3 77°C psia 49 cm3 59°C 8. constant 10 cm 40°C constant cm3 80°C 9. constant 40 cu in 20 cu in 2 cu in 80°F constant _°F 10. 24 psia 27°C psia 1.3 cu in 52°C 11. 9 psia 5 cu in 22°C 12 psia 4.5 cu in °C 12. 16 psig 6 cu in 70°F 30 psig cu in 60°FConsider the channel shown in (Figure 1). Suppose that a = 360 mm, b = 270 mm.c = 50 mm . Part A Determine the location y of the centroid of the channel's cross-sectional area. Express your answer to three significant figures and include the appropriate units. µA Figure 1 of 1 > y = Value Units Submit Request Answer Part B Determine the moment of inertia of the area about this axis. Express your answer to three significant figures and include the appropriate units. ? HA Ir = Value UnitsSituation 22. For the built-up shape shown in the figure, determine: В. bf — 200 тт tf 12 тm h = 200 mm tw 3 10 тт
- A=50kn B=28kn/m C=20kn/m9 2 10 GU Terr Question 2 Refer to the given figure below. Given: a = 1.55 m b = 1.11 m c = 0.73 m Carbon Tetrachloride, sg = 1.60 b B Carbon tetrachloride Water Determine the pressure difference (kPa) between points A and B. Express your answer in 2 decimal places. Neglect sign. |-0- CipUsing Hazen-Williams Eq., determine the headloss in both feet and psi when 750 gpm flows through the following system: 2 Pipe 1 2 3 4 1 Material Ductile Iron Ductile Iron Ductile Iron Ductile Iron 3 4 Diameter (in) Length (ft) 10 800 8 500 8 500 10 800 C 140 140 140 140 K ? ? ? ?
- A well in an unconfined aquifer was pumped at a rate of 900 m³/day. Drawdown was measured in a fully penetrating observation well located 85 m away. The following data were obtained: Time Drawdown Time Drawdown (min) (m) (min) (m) 41 0.128 1.17 0.004 51 0.133 1.34 0.009 65 0.141 1.7 0.015 85 0.146 2.5 0.03 115 0.161 4 0.047 175 0.161 0.054 260 0.172 6 0.061 300 0.173 7.5 0.068 370 0.173 0.064 430 0.179 14 0.09 485 0.183 18 0.098 665 0.182 21 0.103 1340 0.2 26 0.11 1490 0.203 31 0.115 1520 0.204 Find the transmissivity T, storativity S and specific yield Sy.Determine the speed and torque required to drive an agitator of 675 mm diameter rotating in air if similar agitator of diameter 225 mm, rotating at 23 rev/s in water requires a torque of 1.1 Nm. Given Pair = 1.23 kg/m³, Pwater = 1000 kg/m³, Mair = 1.86 x 10-5 Pa-s, Pwater = 1.1 x 10-3 Pa-s. Obtain your result after arriving at the relevant group of dimensionless terms and the corresponding similarity law, considering that power required as a function of the speed, diameter of agitator, the fluid density and viscosity of fluid in which agitator rotates.Problem 10.28 Consider the channel shown in (Figure 1). Suppose that a = 370 mm, b = 210 mm, c = 50 mm. Figure 1 of 1 Part A Determine the location of the centroid of the channel's cross-sectional area. Express your answer to three significant figures and include the appropriate units. y = Submit Part B li μА Ig' = Value Submit My Answers Give Up Units Determine the moment of inertia of the area about this axis. Express your answer to three significant figures and include the appropriate units. μА Value Units p My Answers Give Up ? ? Provide Feedback Continue