Explain the variation of discharge with respect to head in shaft spillways by drawing a figure.

The drawing shows a human figure approximately in a sitting position. For the purposes of this...

The drawing shows a human figure approximately in a sitting position. For the purposes of this problem, there are three parts to the figure, and the center of mass of each one is shown in the drawing. These parts are: (1) the torso, neck, and head (total mass = 43.4 kg) with a center of mass located on the y axis at a point 0.374 m above the origin, (2) the upper legs (mass = 16.3 kg) with a center...

The drawing shows a human figure approximately in a sitting position. For the purposes of this...

The drawing shows a human figure approximately in a sitting position. For the purposes of this problem, there are three parts to the figure, and the center of mass of each one is shown in the drawing. These parts are: (1) the torso, neck, and head (total mass = 44.9 kg) with a center of mass located on the y axis at a point 0.432 m above the origin, (2) the upper legs (mass = 16.6 kg) with a center...

Explain why neuropsychologic battery testing is especially useful for diagnosing closed-head brain injuries. Note: no figure...

Explain why neuropsychologic battery testing is especially useful for diagnosing closed-head brain injuries. Note: no figure required.

What is a crank shaft? Explain how crank-shaft works in car model engine.

What is a crank shaft? Explain how crank-shaft works in car model engine.

An electric motor drawing 10 amps at 110 V in steady state produces shaft power at...

An electric motor drawing 10 amps at 110 V in steady state produces shaft power at 9.7 Nm and 1000 RPM. For a first Law analysis and considering the motor as the control volume How much heat will be produced from the motor (in Watts)?

What are the discharge and head values you would record at duty point for the selected...

What are the discharge and head values you would record at duty point for the selected pump? Pump Values Diameter of Pipe (D) = 150mm = 0.15m Length of Pipe (L) = 910m Friction Factor (lambda) = 0.05 Water Level (h) = 11m Area (A) = 0.01767m2

The worm shaft shown in part a of the figure transmits 1.2 hp at 500 rev/min....

The worm shaft shown in part a of the figure transmits 1.2 hp at 500 rev/min. A static force analysis gave the results shown in part b of the figure. Bearing A is to be an angular-contact ball bearing mounted to take the 555-lbf thrust load. The bearing at B is to take only the radial load, so a straight roller bearing will be employed. Use an application factor of 1.3, a desired life of 30 kh, and a reliability...

Even when the head is held erect, as in the figure below, its center of mass...

Even when the head is held erect, as in the figure below, its center of mass is not directly over the principal point of support (the atlanto-occipital joint). The muscles in the back of the neck must therefore exert a force to keep it erect. That is why your head falls forward when you fall asleep in class. If the perpendicular distance between the line of action for the weight of the head and the pivot point is rW⊥ =...

For a discharge of 1.5 cfs, determine the head loss in each component and the total...

For a discharge of 1.5 cfs, determine the head loss in each component and the total head loss across an entire series pipe system laid out in a horizontal plane, constructed of welded steel pipe, and consisting of the following components arranged in series: 350 ft of 4-inch diameter pipe, a 90° bend, 4-inch gate valve in the fully open position, an additional 60 ft of 4-inch pipe, sudden expansion to 6-inch diameter, 350 ft of 6-inch pipe, sudden contraction...

Explain why the coefficient of contraction is included in the discharge equation for flow through a...

Explain why the coefficient of contraction is included in the discharge equation for flow through a small orifice.