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Post Closed as "Not suitable for this site" by Emilio Pisanty, Kyle Kanos, Sebastian Riese, Jon Custer, Martin
Period as decimal separator.
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stafusa
stafusa
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Does the viscosity unit "$\mathrm{ps}$" exist or is it a misprint and refers to poise "$\mathrm{P}$"? Thank you

A liquid of $0,014\,\mathrm{ps}$$0.014\,\mathrm{ps}$ viscosity and $1,4\,\mathrm{g/cm^3}$$1.4\,\mathrm{g/cm^3}$ density circulates through a $3,14\,\mathrm{cm^2}$$3.14\,\mathrm{cm^2}$ section pipe with a flow rate of $0,352\,\mathrm{liters/s}$$0.352\,\mathrm{liters/s}$. Determine the Reynolds number of the flow and decide if the liquid is flowing in laminar or turbulent regime. Sun: $Re = 22415$; turbulent regime

Does the viscosity unit "$\mathrm{ps}$" exist or is it a misprint and refers to poise "$\mathrm{P}$"? Thank you

A liquid of $0,014\,\mathrm{ps}$ viscosity and $1,4\,\mathrm{g/cm^3}$ density circulates through a $3,14\,\mathrm{cm^2}$ section pipe with a flow rate of $0,352\,\mathrm{liters/s}$. Determine the Reynolds number of the flow and decide if the liquid is flowing in laminar or turbulent regime. Sun: $Re = 22415$; turbulent regime

Does the viscosity unit "$\mathrm{ps}$" exist or is it a misprint and refers to poise "$\mathrm{P}$"? Thank you

A liquid of $0.014\,\mathrm{ps}$ viscosity and $1.4\,\mathrm{g/cm^3}$ density circulates through a $3.14\,\mathrm{cm^2}$ section pipe with a flow rate of $0.352\,\mathrm{liters/s}$. Determine the Reynolds number of the flow and decide if the liquid is flowing in laminar or turbulent regime. Sun: $Re = 22415$; turbulent regime

fix type setting of units
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dmckee --- ex-moderator kitten
dmckee --- ex-moderator kitten
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Does the viscosity unit "$ps$$\mathrm{ps}$" exist or is it a misprint and refers to poise "$p$$\mathrm{P}$"? Thank you

A liquid of $0,014~ps$$0,014\,\mathrm{ps}$ viscosity and $1,4~g/cm^3$$1,4\,\mathrm{g/cm^3}$ density circulates through a $3,14~cm^2$$3,14\,\mathrm{cm^2}$ section pipe with a flow rate of $0,352~liters/s$$0,352\,\mathrm{liters/s}$. Determine the Reynolds number of the flow and decide if the liquid is flowing in laminar or turbulent regime. Sun: $Re = 22415$; turbulent regime

Does the viscosity unit "$ps$" exist or is it a misprint and refers to poise "$p$"? Thank you

A liquid of $0,014~ps$ viscosity and $1,4~g/cm^3$ density circulates through a $3,14~cm^2$ section pipe with a flow rate of $0,352~liters/s$. Determine the Reynolds number of the flow and decide if the liquid is flowing in laminar or turbulent regime. Sun: $Re = 22415$; turbulent regime

Does the viscosity unit "$\mathrm{ps}$" exist or is it a misprint and refers to poise "$\mathrm{P}$"? Thank you

A liquid of $0,014\,\mathrm{ps}$ viscosity and $1,4\,\mathrm{g/cm^3}$ density circulates through a $3,14\,\mathrm{cm^2}$ section pipe with a flow rate of $0,352\,\mathrm{liters/s}$. Determine the Reynolds number of the flow and decide if the liquid is flowing in laminar or turbulent regime. Sun: $Re = 22415$; turbulent regime

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j689423
j689423
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A viscosity unit

Does the viscosity unit "$ps$" exist or is it a misprint and refers to poise "$p$"? Thank you

A liquid of $0,014~ps$ viscosity and $1,4~g/cm^3$ density circulates through a $3,14~cm^2$ section pipe with a flow rate of $0,352~liters/s$. Determine the Reynolds number of the flow and decide if the liquid is flowing in laminar or turbulent regime. Sun: $Re = 22415$; turbulent regime