Webb12 aug. 2024 · Let the total capacity of tank = 180 unit [LCM of 36 and 45] According to the question. Efficiency of Pipe A = 180/35 = 5. Efficieny of Pipe B = -180/ (45) = -4 [B is an … WebbQ. Pipes A and B can fill a tank in 5 and 6 hours respectively. Pipe C can empty it in 12 hours. If all the three pipes are opened together, then the tank will be filled in. Q. Two …

Problems on Pipes and Water Tank - CCSS Math Answers

WebbPipes and Cisterns Pipes & Water Tank Maths Problems Part 2 नळ आणि टाकी #mathematics #maths,pipes and cisterns,pipes and cisterns aptitude,pipes and cis... Webb7 mars 2024 · Let the capacity of tank be LCM (10, 12, 30) = 60 units => Efficiency of pipe A = 60 / 10 = 6 units / hour => Efficiency of pipe B = 60 / 12 = 5 units / hour => Efficiency of pipe C = – 60 / 30 = – 2 units / hour (Here, ‘-‘ represents outlet pipe) => Combined efficiency of pipes A, B and C = 6 + 5 – 2 = 9 units / hour Therefore, time taken to … tokyo revengers brahman leader

How to Solve Pipes & Cistern Questions? Tips & Tricks

WebbThree pipes A, B and C can fill a tank in 6 hours. After working at it together for 2 hours, C is closed and A and B can fill the remaining part in 7 hours. The number of hours taken by C alone to fill the tank is. A 10 B 12 C 14 D 16 Easy Solution Verified by Toppr Correct option is C) Part time in 2 hours= 62= 31 Remaining part=(1− 31)= 32. Webb28 juni 2024 · Three pipes A, B and C were opened to fill a tank. Working alone, A, B and C require 10, 15 and 20 hours respectively. A was opened at 7 AM, B at 8 AM and C at 9 AM. At what time the tank would be completely filled, given that pipe C can only work for 3 hours at a stretch, and needs 1 hour standing time to work again. Pipes and Cisterns … WebbPipe A's one hour's work for filling the tank = 1 5Pipe B's one hour's work for emptying = 1 6Both pipes are opened, thenBoth's one hour's work = 1 5− 1 6= 6−5 30 = 1 30∴ The … tokyo revengers cap 223