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3-d model comsol multiphysics cad software  (COMSOL Inc)

 
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    Structured Review

    COMSOL Inc 3-d model comsol multiphysics cad software
    MS-induced current density on coverslips containing cultured NS-1 cells and the MS protocol. (A) A 3-D model of the experimental setup was constructed using COMSOL <t>Multiphysics®</t> <t>CAD</t> software, including the geometries and relative positions of both the MS coil and coverslip during stimulations, defined by the electric current per unit area of a cross section. (B) The color bar represents the induced current density (A/mm2) distribution in the coverslip, where maximum and minimum measurements are colored red and blue, respectively. (C) For all MS frequency groups, MS cycles consisted of fifteen 2-sec stimulation trains followed by 2-sec intertrain intervals for a MS cycle of 1-min total. The pulse distribution per group is illustrated by each red line in the stimulation time frame. (D) MS treatment consisted of two MS cycles, as illustrated in (C), separated by a 5-min intercycle interval.
    3 D Model Comsol Multiphysics Cad Software, supplied by COMSOL Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/3-d model comsol multiphysics cad software/product/COMSOL Inc
    Average 90 stars, based on 1 article reviews
    3-d model comsol multiphysics cad software - by Bioz Stars, 2026-06
    90/100 stars

    Images

    1) Product Images from "Differential Intensity-dependent Effects of Magnetic Stimulation on the Longest Neurites and Shorter Dendrites in Neuroscreen-1 Cells"

    Article Title: Differential Intensity-dependent Effects of Magnetic Stimulation on the Longest Neurites and Shorter Dendrites in Neuroscreen-1 Cells

    Journal: Journal of neural engineering

    doi: 10.1088/1741-2560/12/2/026013

    MS-induced current density on coverslips containing cultured NS-1 cells and the MS protocol. (A) A 3-D model of the experimental setup was constructed using COMSOL Multiphysics® CAD software, including the geometries and relative positions of both the MS coil and coverslip during stimulations, defined by the electric current per unit area of a cross section. (B) The color bar represents the induced current density (A/mm2) distribution in the coverslip, where maximum and minimum measurements are colored red and blue, respectively. (C) For all MS frequency groups, MS cycles consisted of fifteen 2-sec stimulation trains followed by 2-sec intertrain intervals for a MS cycle of 1-min total. The pulse distribution per group is illustrated by each red line in the stimulation time frame. (D) MS treatment consisted of two MS cycles, as illustrated in (C), separated by a 5-min intercycle interval.
    Figure Legend Snippet: MS-induced current density on coverslips containing cultured NS-1 cells and the MS protocol. (A) A 3-D model of the experimental setup was constructed using COMSOL Multiphysics® CAD software, including the geometries and relative positions of both the MS coil and coverslip during stimulations, defined by the electric current per unit area of a cross section. (B) The color bar represents the induced current density (A/mm2) distribution in the coverslip, where maximum and minimum measurements are colored red and blue, respectively. (C) For all MS frequency groups, MS cycles consisted of fifteen 2-sec stimulation trains followed by 2-sec intertrain intervals for a MS cycle of 1-min total. The pulse distribution per group is illustrated by each red line in the stimulation time frame. (D) MS treatment consisted of two MS cycles, as illustrated in (C), separated by a 5-min intercycle interval.

    Techniques Used: Cell Culture, Construct, Software



    Similar Products

    3-d model comsol multiphysics cad software  (COMSOL Inc)
    90
    COMSOL Inc 3-d model comsol multiphysics cad software
    MS-induced current density on coverslips containing cultured NS-1 cells and the MS protocol. (A) A 3-D model of the experimental setup was constructed using COMSOL <t>Multiphysics®</t> <t>CAD</t> software, including the geometries and relative positions of both the MS coil and coverslip during stimulations, defined by the electric current per unit area of a cross section. (B) The color bar represents the induced current density (A/mm2) distribution in the coverslip, where maximum and minimum measurements are colored red and blue, respectively. (C) For all MS frequency groups, MS cycles consisted of fifteen 2-sec stimulation trains followed by 2-sec intertrain intervals for a MS cycle of 1-min total. The pulse distribution per group is illustrated by each red line in the stimulation time frame. (D) MS treatment consisted of two MS cycles, as illustrated in (C), separated by a 5-min intercycle interval.
    3 D Model Comsol Multiphysics Cad Software, supplied by COMSOL Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/3-d model comsol multiphysics cad software/product/COMSOL Inc
    Average 90 stars, based on 1 article reviews
    3-d model comsol multiphysics cad software - by Bioz Stars, 2026-06
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    MS-induced current density on coverslips containing cultured NS-1 cells and the MS protocol. (A) A 3-D model of the experimental setup was constructed using COMSOL Multiphysics® CAD software, including the geometries and relative positions of both the MS coil and coverslip during stimulations, defined by the electric current per unit area of a cross section. (B) The color bar represents the induced current density (A/mm2) distribution in the coverslip, where maximum and minimum measurements are colored red and blue, respectively. (C) For all MS frequency groups, MS cycles consisted of fifteen 2-sec stimulation trains followed by 2-sec intertrain intervals for a MS cycle of 1-min total. The pulse distribution per group is illustrated by each red line in the stimulation time frame. (D) MS treatment consisted of two MS cycles, as illustrated in (C), separated by a 5-min intercycle interval.

    Journal: Journal of neural engineering

    Article Title: Differential Intensity-dependent Effects of Magnetic Stimulation on the Longest Neurites and Shorter Dendrites in Neuroscreen-1 Cells

    doi: 10.1088/1741-2560/12/2/026013

    Figure Lengend Snippet: MS-induced current density on coverslips containing cultured NS-1 cells and the MS protocol. (A) A 3-D model of the experimental setup was constructed using COMSOL Multiphysics® CAD software, including the geometries and relative positions of both the MS coil and coverslip during stimulations, defined by the electric current per unit area of a cross section. (B) The color bar represents the induced current density (A/mm2) distribution in the coverslip, where maximum and minimum measurements are colored red and blue, respectively. (C) For all MS frequency groups, MS cycles consisted of fifteen 2-sec stimulation trains followed by 2-sec intertrain intervals for a MS cycle of 1-min total. The pulse distribution per group is illustrated by each red line in the stimulation time frame. (D) MS treatment consisted of two MS cycles, as illustrated in (C), separated by a 5-min intercycle interval.

    Article Snippet: Cells from all groups were harvested at the same time on day 4 after plating for immunocytochemistry. fig ft0 fig mode=article f1 fig/graphic|fig/alternatives/graphic mode="anchored" m1 Open in a separate window Figure 1 caption a7 MS-induced current density on coverslips containing cultured NS-1 cells and the MS protocol. (A) A 3-D model of the experimental setup was constructed using COMSOL Multiphysics ® CAD software, including the geometries and relative positions of both the MS coil and coverslip during stimulations, defined by the electric current per unit area of a cross section. (B) The color bar represents the induced current density (A/mm 2 ) distribution in the coverslip, where maximum and minimum measurements are colored red and blue, respectively. (C) For all MS frequency groups, MS cycles consisted of fifteen 2-sec stimulation trains followed by 2-sec intertrain intervals for a MS cycle of 1-min total.

    Techniques: Cell Culture, Construct, Software