Input interpretation
![Blasius skin friction](../image_source/be27bd89175fdaf9512230a846e1e2c1.png)
Blasius skin friction
Equation
![c_f = 1.338/sqrt(Re) | c_f | Blasius skin friction Re | Reynolds number (valid for laminar flow over flat plate)](../image_source/b1c8d0f8e88bd38786f06fe07e834322.png)
c_f = 1.338/sqrt(Re) | c_f | Blasius skin friction Re | Reynolds number (valid for laminar flow over flat plate)
Input value
![Reynolds number | 10](../image_source/41e224b18209e3ca24383efb5727cf00.png)
Reynolds number | 10
Results
![Blasius skin friction | 0.4231](../image_source/749cf3a6010127a3869a2b0e6cbb78b6.png)
Blasius skin friction | 0.4231
Possible intermediate steps
![Calculate the Blasius skin friction using the following information: known variable | | Re | Reynolds number | 10 The relevant equation that relates Blasius skin friction (c_f) and Reynolds number (Re) is: c_f = 1.338/sqrt(Re) Substitute known variables into the equation: known variable | | Re | Reynolds number | 10 | : c_f = 1.338/sqrt(10) Evaluate 1.338/sqrt(10): Answer: | | c_f = 0.4231](../image_source/30db76faea4ed76cf3325e3ee0baa405.png)
Calculate the Blasius skin friction using the following information: known variable | | Re | Reynolds number | 10 The relevant equation that relates Blasius skin friction (c_f) and Reynolds number (Re) is: c_f = 1.338/sqrt(Re) Substitute known variables into the equation: known variable | | Re | Reynolds number | 10 | : c_f = 1.338/sqrt(10) Evaluate 1.338/sqrt(10): Answer: | | c_f = 0.4231