Non-linear regression equations and corresponding regression coefficients obtained from experimental data measured at the peak loading instance of drop landing analysis [62–104].</p
<p>The parameters of a logistic function obtained from a nonlinear regression.</p
<p>Estimated regression coefficients for the log of the cone acceleration dependent variable.</p
<p>Regression analysis of the 50% erosion threshold of three experimental trials.</p
Non-linear regression equations and corresponding regression coefficients obtained from experimental...
Regression parameters of the logistic equations between the boll falling rate and hail fall density....
Regression parameters of the logistic equations between the branch injury rate and hail fall density...
Regression parameters of the logistic equations between the boll falling rate and hail size.</p
Regression parameters of logistic equations between the defoliation rate and hail fall density.</p
<p>Model coefficients derived through regression analysis of primary experimental data.</p
<p>Results of the regression analyses using average pressure, peak pressure, strap force, and relati...
Non-linear regression (through the origin) of bootstrap value on branch length. The observations wer...
<p>Linear regression relating natural log of load to natural log of flow depth over the period of th...
Multiple regression provides the capability of using non-linear functions to fit various curvilinear...
R is a rapidly evolving lingua franca of graphical display and statistical analysis of experiments f...
<p>Statistical analysis results of the modeling parameter estimation derived from the linear regress...
<p>The parameters of a logistic function obtained from a nonlinear regression.</p
<p>Estimated regression coefficients for the log of the cone acceleration dependent variable.</p
<p>Regression analysis of the 50% erosion threshold of three experimental trials.</p
Non-linear regression equations and corresponding regression coefficients obtained from experimental...
Regression parameters of the logistic equations between the boll falling rate and hail fall density....
Regression parameters of the logistic equations between the branch injury rate and hail fall density...
Regression parameters of the logistic equations between the boll falling rate and hail size.</p
Regression parameters of logistic equations between the defoliation rate and hail fall density.</p
<p>Model coefficients derived through regression analysis of primary experimental data.</p
<p>Results of the regression analyses using average pressure, peak pressure, strap force, and relati...
Non-linear regression (through the origin) of bootstrap value on branch length. The observations wer...
<p>Linear regression relating natural log of load to natural log of flow depth over the period of th...
Multiple regression provides the capability of using non-linear functions to fit various curvilinear...
R is a rapidly evolving lingua franca of graphical display and statistical analysis of experiments f...
<p>Statistical analysis results of the modeling parameter estimation derived from the linear regress...
<p>The parameters of a logistic function obtained from a nonlinear regression.</p
<p>Estimated regression coefficients for the log of the cone acceleration dependent variable.</p
<p>Regression analysis of the 50% erosion threshold of three experimental trials.</p