Explain the complete operation of the system shown below. 3. 1-PE 1-CH SOL A 1 LS SOLAL OIL
1) Complete the Aldol Reaction shown below. Heat OH/H2O CH CH 2) Complete the Aldol Reaction shown below. O OH/H20 Heat 3) Complete the Aldol Reaction shown below. O OH/H2O Heat
2) Draw a ladder logic diagram with brief explanation for each rung for the following operation: At the instant shown, the piston is fully retracted A momentary switch is used to activate solenoid valve A. Once the piston reaches limit switch LS-1, it deactivates the valve after 10 sec. This cycle runs only once each time the momentary switch is pressesd and released. The system should only run 5 cycles in total and then stop. A light should be on...
Name Structure 1) ethanol (ethyl alcohol) State (s), (0) H2O Notes CH-CH2-OH Sol., Insol CH4 Sol., Insol. IS Is I No change 2) t-butyl alcohol (2-methyl-2- propanol) CH CH3-C-CH3 1 Is Is I No change OH 3) n-hexyl alcohol (1-hexanol) CH3CH,CH,CH,CHCH2-OH 4) dodecanol 5) 1,6-hexanediol CH CH CH CH CHCH OH ОН 6) decanoic acid Part A) save sample for part B OHS Insols decanoic acid Part B) changed to sodium decanoate after rxn with NaOH After adding the NaOH...
5 (20 points) From the circuit below Find Boolean equation From Boolean equation, explain in detail, what is the state of SOLA and SOLB (immediately, one step) after we push START switch a. b. CYLINDER 1 CYLINDER2 1-LS 2-LS OLAL sOL V2 V1 山 oL IN START STOP 1-LS 1-CR 2-CR 1-LS 2-CR 2-LS 1-CR SOL A 2-CR SOL B 5 (20 points) From the circuit below Find Boolean equation From Boolean equation, explain in detail, what is the state...
1. For the system shown below, oil (S.G. = 0.75) flows through a contracting pipe, and a differential mercury (S.G. = 13.56) manometer is used to directly measure the difference in pressure between location A and location B. From the dimensions that are given, what is PA-po? 1.500 m 0.250 m h 0.250 m Mercury
An oil (SG = 0.9) Issues from the pipe shown in the figure below at Q = 35 ft/h. The length of the pipe is 5 ft. The kinetic energy correction factor a ls 2.0. 10 ft References eBook & Resources Section Break Difficulty: Medium value: 20.00 polnts What is the kinematic viscosity of the oil in ft/s? Round the answer to six decimal places. The kinematic viscosity of the oil is ft/s.
2-19 The results of a sieve analysis on a representative sample of sol are shown below: Sieve size Percent passing 19 mm (3/4 in.) 9.5 mm (3/8 in.) No. 4 No. 8 No. 16 No. 30 No. 50 No. 100 No. 200 98 92 80 50 28 15 6 For the given soil: (a) Plot the grain size distribution curve. (b) Find the effective particle size (D1o) and the uniformity coefficient (Cu). (c) Classify the soil by the Unified Classification...
Problem 1 (45%) properties Nm 30 The eosting sol (below the bose) has the 18 kNm ."z 36. The wall is embedded 1 m into the existing soil coarse-grained sol wh wn in Figure 1, is required to retain 6 m of soil. The backdil o a with Yt18 K and a drainage system base of the wall as en is provided, as shown, The groundwater level is 4.5 m below the cloaged during the surface. Negiect a. Determine the...
Please answer all components. Postlab 1) Coconut oil ls omprised of a misture of fatty acids in the form of triglycerides. The most abundant fatty acids in coconut oil are as follows: Lauric acid (48%) oleic acid (6.5%) Myrisitic acid (16%) Palmitic acid (9.5%) Draw the structure of each of these fatty acids: Considering the structures above, explain the relatively high melting point of coconut oll 2) Some oils that are improperly stored (exposed to oxygen) over long periods of...
Problem 4. Two communication systems (shown below) are composed from several links, where, for proper operation, a connection must be available between two end points of each system. For a link to work properly, it must provide a connection across its end points. The links are assumed to fail independently of each other. Each link is numbered with i, and we assume that the probability that link fails is equal to p Find the probability of failure of each system,...