In the chamber, section (1) has a diameter of 4.3 in., and the flow is 2.79 ft^3/s. Section (2) has a diameter of 3.3 in., and the flow velocity (out) is 30.96 ft/s. Compute the flow velocity (in ft/s) of Section (3) if its diameter is 1.45. Hint: check whether flow in section (3) is inflow or outflow. An open rail car is 4.5 ft wide, 8.65 ft high, 16.75 ft long. It is filled with water to a depth of 6.65 ft. It is accelerated to the right along its length 32.4 ft/s^2. Determine the volume spilled in ft^3. a container whose capacity is 7.29 m^3 weighs 1,867 N when empty and 49.53 when filled with liquid. calculate the density (kg/m^3) of the liquid
In the chamber, section (1) has a diameter of 4.3 in., and the flow is 2.79 ft^3/s. Section (2) has a diameter of 3.3 in., and the flow velocity (out) is 30.96 ft/s. Compute the flow velocity (in ft/s) of Section (3) if its diameter is 1.45. Hint: check whether flow in section (3) is inflow or outflow.
An open rail car is 4.5 ft wide, 8.65 ft high, 16.75 ft long. It is filled with water to a depth of 6.65 ft. It is accelerated to the right along its length 32.4 ft/s^2. Determine the volume spilled in ft^3.
a container whose capacity is 7.29 m^3 weighs 1,867 N when empty and 49.53 when filled with liquid. calculate the density (kg/m^3) of the liquid
Diameter and Velocity of section 1 and 2 have been given and it has been asked to determine velocity at section 3.
First of all we need to understand the flow direction and in the question it has been given that flow at section 2 is outward, please refer step 2 for detailed solution and explanation.
Note: As per the guidelines, we need to answer only first question in the case of multiple questions.
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