A firefighter mounts the nozzle of his fire hose a distance 33.7 m33.7 m away from...
A firefighter mounts the nozzle of his fire hose a distance 33.7 m33.7 m away from the edge of a burning building so that it sprays from ground level at a 45° angle above the horizontal. After quenching a hotspot at a height of 8.85 m,8.85 m, the firefighter adjusts the nozzle diameter so that the water hits the building at a height of 17.1 m.17.1 m. By what factor was the nozzle diameter changed? Assume that the flow rate of water through the hose stays the same, and treat the water as an ideal fluid.
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A firefighter mounts the nozzle of his fire hose a distance 33.7
m33.7 m away from...
A firefighter mounts the nozzle of his fire hose a distance 38.5 m away from the...
A firefighter mounts the nozzle of his fire hose a distance 38.5 m away from the edge of a burning building so that it sprays from ground level at a 45° angle above the horizontal. After quenching a hotspot at a height of 8.97 m, the firefighter adjusts the nozzle diameter so that the water hits the building at a height of 17.5 m. By what factor was the nozzle diameter changed? Assume that the flow rate of water through...
A firefighter mounts the nozzle of his fire hose at the base of a burning building...
A firefighter mounts the nozzle of his fire hose at the base of a burning building so that it sprays vertically upwards. The initial radius of the hose is r1 = 4.00 cm. After quenching a hotspot at a height of h1 = 8.97 m, the firefighter adjusts the nozzle diameter so that the water hits the building at a height of h2 = 16.3 m. What is the new radius of the hose?
A firefighter is spraying water on a building. Water leaves the hose at 35 m/s and...
A firefighter is spraying water on a building. Water leaves the hose at 35 m/s and an angle of 30 Degrees above the horizontal. The nozzle of the hose is 1.0 m above the ground, and the building is 22 m away. The building is 40 m tall. a. How much time does it take for the water to reach the building? b. At what height above the ground does the water hit the building? c. In what vertical direction...
A firefighter holds a hose 2 m off the ground and directs a stream of water...
A firefighter holds a hose 2m off the ground and directs a stream of water toward a burning building. The water leaves the hose at an initial speed of 14m /sec at an angle of 30°. The height of the water can be approximated by h(x)=-0.027x2+0.597x+2, where h(x) is the height of the water in meters at a point x meters horizontally from the firefighter to the building.Part 1 a. Determine the horizontal distance from the firefighter at which the maximum...
Water from a fire hose is directed toward a building as shown in the figure below.
Water from a fire hose is directed toward a building as shown in the figure below. The water leaves the hose at a speed of vi = 40.0 m/s and at an angle of θi = 42.0° above the horizontal. The base of the hose (at ground level) is a horizontal distance d = 45.0 m away from the building. Find the height h (in m) where the water strikes the building.A fireman on the ground sprays water from a...
A fireman d=37.0m away from a burning building directs a stream of water from a ground-level fire hose at an angle
A fireman d=37.0m away from a burning building directs a stream of water from a ground-level fire hose at an angle of θi=33.0° above the horizontal as shown in the figure. If the speed of the stream as it leaves the hose is vi=40.0m/s, at what height will the stream of water strike the building?
Suppose you have a 8.8cm diameter fire hose with a 3.2 cm diameter nozzle. Solve all...
Suppose you have a 8.8cm diameter fire hose with a 3.2 cm
diameter nozzle. Solve all questions: a and b!
Thank you.
Class Management | Help Assignment 8 Begin Date: 3/23/2020 9:01:00 AM -- Due Date: 3/30/2020 9:00:00 AM End Date: 3/30/2020 9:00:00 AM (8%) Problem 12: Suppose you have a 8.8 cm diameter fire hose with a 3.2 cm diameter nozzle. | A 50% Part (a) Calculate the pressure drop due to the Bernoulli effect as water enters the...
A fireman d = 49.0 m away from a burning building directs a stream of water...
A fireman d = 49.0 m away from a burning building directs a stream of water from a ground-level fire hose at an angle of θi = 24.0° above the horizontal as shown in the figure. If the speed of the stream as it leaves the hose is vi = 40.0 m/s, at what height will the stream of water strike the building?'
A fireman d = 30.0 m away from a burning building directs a stream of water...
A fireman d = 30.0 m away from a burning building directs a stream of water from a ground-level fire hose at an angle of θi = 28.0° above the horizontal as shown in the figure. If the speed of the stream as it leaves the hose is vi = 40.0 m/s, at what height will the stream of water strike the building?
A fireman, 50.0 m away from a burning building, directs astream of water from a fire...
A fireman, 50.0 m away from a burning building, directs astream of water from a fire hose at an angle of 30.0°above the horizontal. If the initial speed of the stream is 40.0 m/s, what is the horizontal component of the initial velocity?
Water from a fire hose is directed toward a building as shown in the figure below. The water leaves the hose at a speed of vi = 40.0 m/s and at an angle of θi = 42.0° above the horizontal. The base of the hose (at ground level) is a horizontal distance d = 45.0 m away from the building. Find the height h (in m) where the water strikes the building.A fireman on the ground sprays water from a...
Suppose you have a 8.8cm diameter fire hose with a 3.2 cm
diameter nozzle. Solve all questions: a and b!
Thank you.
Class Management | Help Assignment 8 Begin Date: 3/23/2020 9:01:00 AM -- Due Date: 3/30/2020 9:00:00 AM End Date: 3/30/2020 9:00:00 AM (8%) Problem 12: Suppose you have a 8.8 cm diameter fire hose with a 3.2 cm diameter nozzle. | A 50% Part (a) Calculate the pressure drop due to the Bernoulli effect as water enters the...
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