You can assume the following for the entirety of this problem: • Assume that the water main has a huge diameter, such that the water velocity is effectively zero in the main - it only speeds up when it enters the skinny pipe going into your house or apartment. • Assume that the pipe in your house has about the same diameter as your hose • Assume that the water main is 1m underground, and located about 100 ft. from the spigot that your hose attaches to. • Assume that your hose and the pipe in your house has an internal diameter of 1.5cm. Based on where the water is hitting the ground, calculate what the water velocity is coming out of the hose for the different heights. First write a general equation for the water velocity based on d and h, and then solve for it for the different hose heights shown in the pictures. Hint: The water path behaves like that of any other object thrown through the air. You may want to review projectile motion equations from PHYS 111. Data point 1: the lowest height. OU Find the distance for data point 1. Markings are for meters. Find the height for data point 1.

You can assume the following for the entirety of this problem: • Assume that the water main has a huge diameter, such that the water velocity is effectively zero in the main - it only speeds up when it enters the skinny pipe going into your house or apartment. • Assume that the pipe in your house has about the same diameter as your hose • Assume that the water main is 1m underground, and located about 100 ft. from the spigot that your hose attaches to. • Assume that your hose and the pipe in your house has an internal diameter of 1.5cm. Based on where the water is hitting the ground, calculate what the water velocity is coming out of the hose for the different heights. First write a general equation for the water velocity based on d and h, and then solve for it for the different hose heights shown in the pictures. Hint: The water path behaves like that of any other object thrown through the air. You may want to review projectile motion equations from PHYS 111. Data point 1: the lowest height. OU Find the distance for data point 1. Markings are for meters. Find the height for data point 1.

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Question

You can assume the following for the entirety of this problem:
• Assume that the water main has a huge diameter, such that the water velocity is effectively
zero in the main - it only speeds up when it enters the skinny pipe going into your house or
apartment.
• Assume that the pipe in your house has about the same diameter as your hose
• Assume that the water main is 1m underground, and located about 100 ft. from the spigot
that your hose attaches to.
• Assume that your hose and the pipe in your house has an internal diameter of 1.5cm.
Based on where the water is hitting the ground, calculate what the water velocity is coming out
of the hose for the different heights. First write a general equation for the water velocity based.
on d and h, and then solve for it for the different hose heights shown in the pictures.
Hint: The water path behaves like that of any other object thrown through the air. You may want
to review projectile motion equations from PHYS 111.
Data point 1: the lowest height.
Find the distance for data
point 1. Markings are for
meters.
Find the height for data point 1.

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