Orifice and jet coefficients — Cv vs. Cd For an orifice or nozzle, how does the coefficient of velocity (Cv) compare to the coefficient of discharge (Cd)?

Introduction / Context:
Three key coefficients describe jet behavior at orifices: coefficient of contraction (Cc), coefficient of velocity (Cv), and coefficient of discharge (Cd). Their relationships are fundamental in hydraulics and flow measurement.

Given Data / Assumptions:

• Cd = actual discharge / theoretical discharge.
• Cd = Cc * Cv is the standard relationship.
• Cc is typically less than 1.

Concept / Approach:
Because Cc < 1 for a contracting jet, multiplying Cv by Cc yields Cd < Cv. Thus, Cv is greater than Cd for real orifices/nozzles.

Step-by-Step Solution:
Start from Cd = Cc * Cv.Recognize Cc < 1 (vena contracta phenomenon).Therefore, Cv > Cd.

Verification / Alternative check:
Typical values: Cc ≈ 0.62–0.64, Cv ≈ 0.97–0.99, Cd ≈ 0.61–0.62 (for sharp-edged orifice), confirming Cv > Cd.

Why Other Options Are Wrong:

• Less than/equal to/not related: contradict empirical relations and definitions.

Common Pitfalls:

• Mixing up the three coefficients or forgetting the contraction effect.

Final Answer:
more than