Experiment Data Take the following data for the syringe injection pump Q Inner diameter of syringe barrel: D = 1.5 cm Inner diameter of the needle shaft of the syringe: d = 0.5 mm The thread pitch of lead screw: pt = 0.75 mm Lead screw rotation velocity (rpm): n Please, sir, dissolve the last branch from the question of the first branch, I have the solution. Calculations Liquid injection rate (cm³/hr) Q = pt*n* 60 *n*D²/4 Velocity of liquid in syringe barrel (cm/min) vb = 4Q/ (60** D²) Velocity of liquid in syringe needle (cm/min) v = 40/ (60*21 Find the rotation velocity of lead screw n and the velocity of liquid in syringe needle if the required injection dose is 1. 10 cm³ in 3 hours (continuous injection) (discontinuous injection, 5 cm³ each 3 hour, injection time = 1 2. 20 cm³ in 12 hours min). Discus the results briefly.
Experiment Data Take the following data for the syringe injection pump Q Inner diameter of syringe barrel: D = 1.5 cm Inner diameter of the needle shaft of the syringe: d = 0.5 mm The thread pitch of lead screw: pt = 0.75 mm Lead screw rotation velocity (rpm): n Please, sir, dissolve the last branch from the question of the first branch, I have the solution. Calculations Liquid injection rate (cm³/hr) Q = pt*n* 60 *n*D²/4 Velocity of liquid in syringe barrel (cm/min) vb = 4Q/ (60** D²) Velocity of liquid in syringe needle (cm/min) v = 40/ (60*21 Find the rotation velocity of lead screw n and the velocity of liquid in syringe needle if the required injection dose is 1. 10 cm³ in 3 hours (continuous injection) (discontinuous injection, 5 cm³ each 3 hour, injection time = 1 2. 20 cm³ in 12 hours min). Discus the results briefly.
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