determine the angle separating each bucket that moves the water around the waterwheel if each bucket...

Question

Question

determine the angle separating each bucket that moves the water around the waterwheel if each bucket is evenly dispersed around the wheel

math Advanced-Math

Answer 1

Answer #1

Ans.

Suppose No of buckets are 8 around the wheel.

as buckets are evenly dispersed so total angle of wheel 360 degree will be equally divided.

$So\ angle\ separating \ each\ bucket = \frac{360}{8} =45 degree$

$So\ angle\ separating \ each\ bucket = 45\ degree$

Answer 2

Similar Homework Help Questions

I filled a bucket with water and am swinging it around in a vertical circle so...

I filled a bucket with water and am swinging it around in a vertical circle so that at the highest point, the bucket is directly over my head. The total distance from me to the water is 2 m. a. Draw a free body force diagram for the water in the bucket at the bottom of the swing. b. Draw a free body force diagram for the water in the bucket at the top of the swing. c. What is...
4. The is -(0. t 3 s bucket is hoisted by the rope that wraps around a drum wheel. If the angular displacement of t...

4. The is -(0. t 3 s bucket is hoisted by the rope that wraps around a drum wheel. If the angular displacement of the wheel 5t +15t) rad, where t is in seconds, determine the velocity and acceleration of the bucket when 0.75 ft
A bucket of water of mass 14.4 kg is suspended by a rope wrapped around a...

A bucket of water of mass 14.4 kg is suspended by a rope wrapped around a windlass, that is a solid cylinder with diameter 0.350 m with mass 13.0 kg . The cylinder pivots on a frictionless axle through its center. The bucket is released from rest at the top of a well and falls a distance 10.0 m to the water. You can ignore the weight of the rope. Take the free fall acceleration to be g = 9.80...

how do you calculate the folowing: you swing a bucket around so that way the water...

how do you calculate the folowing: you swing a bucket around so that way the water does not fall out. how slow can you swing the bucket and keep the water in the bucket? assume the only focres acting upon the system is gravity and a normal force.
A bucket of water of mass 15.7 kg is suspended by a rope wrapped around a...

A bucket of water of mass 15.7 kg is suspended by a rope wrapped around a windlass, that is a solid cylinder with diameter 0.280 m with mass 11.4 kg . The cylinder pivots on a frictionless axle through its center. The bucket is released from rest at the top of a well and falls a distance 10.6 m to the water. You can ignore the weight of the rope. Part A What is the tension in the rope while...
Determine the efficiency of a water turbine The buckets of a Pelton wheel revolve on a...

Determine the efficiency of a water turbine The buckets of a Pelton wheel revolve on a mean diameter of 2.0 m at 1600 rev/min. The jet velocity is 1.5 times the bucket velocity. The water flow rate required to produce a power output of 2.5 MW is 120 kg/s. The blade friction coefficient is 0.97. The deflection angle is 165⁰ . Determine the efficiency of the water turbine.

(1) Hydraulic turbines convert the potential energy of water into shaft work, which, in turn, rotates...

(1) Hydraulic turbines convert the potential energy of water into shaft work, which, in turn, rotates the electric generator coupled to it in producing electric power. Pelton turbine named after Lester Allen Pelton of the USA, an impulse turbine used for high head and low discharge. In an impulse turbine all the available head of water is converted into kinetic energy in a nozzle. The water shoots out of the nozzle in a free jet into a bucket which revolves...
Determine the following statement is Ture or False. Explain briefly. A satellite moves around a planet...

Determine the following statement is Ture or False. Explain briefly. A satellite moves around a planet in an elliptical orbit. The ratio of the speed of the satellite at the closest distance to that at the farthest distance from the planet can be obtained from Kepler’s third law.
5. A 150 mm diameter water jet moving at 12 m/s, is split so that the three-fourth of the water moves upward. The s...

5. A 150 mm diameter water jet moving at 12 m/s, is split so that the three-fourth of the water moves upward. The splitter is inclined at an angle of 65° and is moving to the right at 3 m/s. Assume ideal conditions and determine the total dynamic force exerted by jet on the splitter 5. A 150 mm diameter water jet moving at 12 m/s, is split so that the three-fourth of the water moves upward. The splitter is...

Determine the refracted angle for light in water (n = 1.33) incident on carbon disulfide (n...

Determine the refracted angle for light in water (n = 1.33) incident on carbon disulfide (n = 1.63) at an angle of 25 degree. What is the critical angle for the water-carbon disulfide interface?