G) A 12 meter water t aut -the hole G) A 12 meter water t aut -the hole
Prove the Theorem: Theorem: A graph G is a Cayley graph if and only if Aut(G) contains a subgroup that acts reg- ularly on G Theorem: A graph G is a Cayley graph if and only if Aut(G) contains a subgroup that acts reg- ularly on G
I. Show that if φ E Aut(G) and N G then φ(N) G
consider a tank full of water, cylindrical in shape, 3.0 meters high and 1.0 meter in diameter. Suppose there is a hole of area 1.0 cm^2 at the bottom of the tank. Calculate the speed at which water is discharged, then the volume of water discharged each second.
20cm Calculate R Water 44cm hole diameter = .5cm Density of water -1 gram/cubic cm g=981 cm per sec squared
Help please ne ar A cylindrical open water bottle of diameter D has a circular hole of diameter d. The hole is located at a distance x below the water level. Find the efflux speed (speed of the water as it exits the hole) as a function o the density of the water p. The atmospheric pressure is po 2. D.d,h, g and A)
In the last portfolio task, we modelled water draining from a tank with a small hole in the bottom. To slow the volume decrease of the tank, a hose is placed in the top of tank with flow rate Q(t). This results in the following modified Torcelli's law: dV Given A 4 m2, a -0.1 m2, g 9.81 m/s2, Q(t) 0.7e-0.11 m3/s and V(0) 10 m3
i need the answers to these two problems HOLE D HOLE G PITCH PITCH cel- HOLE E HOLE F PITCH PITCH FIGURE 5-4 20. The casting in the accompanying figure 5-4 shows seven tapped holes, A-G. The numb of threads is determined by dividing the depth of the thread pitch. Find the number of threads in hole D. All dimensions are in inches. a. 3 b. 4 c. 6 d. 7 F6-07 E9 -H3-3 3"--G G- FIGUREST 21. In the...
aut = Urxe + 4tx 02x23, tro Их(Ort) = 1*, Их(3,t) =t to ИСХО)=1 tx, Oext3
a. find the horizontal velocity of the water as it leaves the hole b. what is the vertical velocity as the water leaves the hole c.what assumptions did you need to make in a? d. how far from the tank will the woman have to stand to catch the water in her mouth if htank = 6.25m and hhole = 1.25 m? 5. (7pts) For the figure shown below, assume atmospheric pressure Po is pushing down at the top and...
Water is flowing through a circular hole in a large, open tank at a rate of 166 ml / s. The hole is 3.75 meters below the surface of the water in the open tank. The area of the hole is 4 cm2 What is the weight of water that would leave the tank in 2.3 minutes? Answer in Newtons