Doubly‑charged calcium ions, Ca2+, are released into your bloodstream and flow through your capillaries. The diameter of a capillary is about 5.80 μm, calcium ion concentrations are approximately 1.40 mol/m3, and typical electric current flow due to the Ca2+ ions is around 1.2 nA.
Calculate the drift speed
Doubly‑charged calcium ions, Ca2+, are released into your bloodstream and flow through your capillaries. The diameter of...
Doubly‑charged calcium ions, Ca2+,Ca2+, are released into your bloodstream and flow through your capillaries. The diameter of a capillary is about 5.60 μm,5.60 μm, calcium ion concentrations are approximately 1.00 mol/m3,1.00 mol/m3, and typical electric current flow due to the Ca2+Ca2+ ions is around 1.2 nA.1.2 nA. Calculate the drift speed ?driftvdrift of the calcium ions.
Doubly‑charged calcium ions, Ca2+,Ca2+, are released into your bloodstream and flow through your capillaries. The diameter of a capillary is about 7.70 μm,7.70 μm, calcium ion concentrations are approximately 1.30 mol/m3,1.30 mol/m3, and typical electric current flow due to the Ca2+Ca2+ ions is around 1.2 nA.1.2 nA. Calculate the drift speed ?driftvdrift of the calcium ions
Doubly‑charged calcium ions, Ca2+, are released into your bloodstream and flow through your capillaries. The diameter of a capillary is about 7.30 μm, calcium ion concentrations are approximately 1.40 mol/m^3, and typical electric current flow due to the Ca2+ ions is around 1.2 nA.1.2 nA. Calculate the drift speed of the calcium ions.
Doubly‑charged calcium ions, Ca2+, are released into your bloodstream and flow through your capillaries. The diameter of a capillary is about 6.50 μm, calcium ion concentrations are approximately 1.20 mol/m3, and typical electric current flow due to the Ca2+ ions is around 1.2 nA. Calculate the drift speed ?drift of the calcium ions.
Doubly‑charged calcium ions, Ca2+, are released into your bloodstream and flow through your capillaries. The diameter of a capillary is about 9.00 μm, calcium ion concentrations are approximately 1.00 mol/m3, and typical electric current flow due to the Ca2+ ions is around 1.2 nA. Calculate the drift speed ?drift of the calcium ions.
Doubly‑charged calcium ions, Ca2+, are released into your bloodstream and flow through your capillaries. The diameter of a capillary is about 5.00 μm, calcium ion concentrations are approximately 0.900 mol/m3, and typical electric current flow due to the Ca2+ ions is around 1.2 nA. Calculate the drift speed ?drift of the calcium ions.
Doubly-charged calcium ions, Ca²+, are released into your bloodstream and flow through your capillaries. The diameter of a capillary is about 6.60 um, calcium ion concentrations are approximately 0.900 mol/m', and typical electric current flow due to the Ca2+ ions is around 1.2 nA. Calculate the drift speed Udrit of the calcium ions. drift m/s
Doubly‑charged calcium ions, Ca 2 + , are released into your bloodstream and flow through your capillaries. The diameter of a capillary is about 8.40 μm, calcium ion concentrations are approximately 1.40 mol/m 3 , and typical electric current flow due to the Ca 2 + ions is around 1.2 nA. Calculate the drift speed v drift of the calcium ions.