Determine both the cohens d and r^2 effect sizes for the following study results: U=21, sample...
Use the following information to calculate a one sample t-test, and then determine both the cohens d and r^2 effect sizes: U=45, sample n=9, M=49, s=12 t=1.000; cohens d=0.333, r^2=0.111 t=1.000; cohens d=0.200, r^2=0.100 t=1.682; cohens d=0.333, r^2=0.111 t=1.682; cohens d=0.385, r^2=0.111
2) A sample of 100 people is involved in a study for colorblindness. The results are summarized in the table below. An individual is selected at random from the 100 people. Let C the event that the person is colorblin Let F = the event that the person is female. Let M = the event that the person is male. Female Male Totals Colorblind 18 Not colorblind 54 22 60 40 24 76 100 Totals a.) P(Cn F)- b.) P(F)...
The following results are from an independent-measures, two-factor study with n condition. 10 participants in each treatment Factor B Factor A 2 T 40 M=4.00 SS = 50 T=50 M = 5.00 SS = 60 T= 10 M 1.00 SS 30 T=20 M 2.00 SS 40 N = 40; G = 120; Σ? = 640 Use a two-factor ANOVA with α =。05 to evaluate the main effects and the interaction Source df MS Between treatments AxB Within treatments Total For...
D Time: 2 hours, 27 21 Question Completion Status: Path: p QUESTION 3 A stepped shaft is subjected to the torques shown. The shaft is made of steel (G-80 GPA), Calculate the maimum shear ss ih d b 3000 N m 2000 N m 800 N·m 40 mm 80 mm 60 mm -0.5 m- 0.5 m -0.5 m '-. E, T-2 ' 3(12pt) T T T 쫓 Paragraph ▼ Arial HTHL ESS
The following results are from an independent-measures, two-factor study with n = 5 participants in each treatment condition Factor A: Factor B: 3 M=5 M=8 M=14 T=25 T=40 T=70 SS 30 SS 38 SS46 n=5 n=5 n=5 2 T= 15 T-20 T=40 SS 22 SS 26 SS 30 ZX2 = 2,062 Use a two-factor ANOVA with α = .05 to evaluate the main effects and interaction. Source df MS Between treatments A x B Within treatments Total F Distribution Numerator...
For each of the following simulation studies, please try two different sample sizes (n = 30 and n = 300). When comparing the estimators, you need to consider both of the bias and variance of the estimates across 100 simulated samples with the same sizes. Please choose your own parameter(s) for the distributions. 1. Conduct a simulation study to compare the method of moment estimator and MLE for the parameters of a Beta distribution or Gamma distribution. (You only need...
For each of the following simulation studies, please try two different sample sizes (n = 30 and n = 300). When comparing the estimators, you need to consider both of the bias and variance of the estimates across 100 simulated samples with the same sizes. Please choose your own parameter(s) for the distributions. 1. Conduct a simulation study to compare the method of moment estimator and MLE for the parameters of a Beta distribution or Gamma distribution. (You only need...
I need help with A & B.
The graph for both are on the right.
I need help with part C.
I need help with part D as
well.
So all together Parts A, B, C, D.
Homework: MEL Homework 10 - Using Units to Solve Engineering Score: 0 of 2 pts HW 2 of 8 (1 complete) Instructor-created question - X iMore Info Below is a graph of the vertical position of a person bungee jumping, in meters. Click...
0 Firms U and L are in the same risk class and that both have EBIT = $1,000,000. Firm U uses no debt financing and its cost of equity is KsU-15%. Firm L has $2 million of debt outstanding at a cost of Kd = 5%. There are no taxes and MM assumptions hold. 1 , Using the data given above, but now assuming that firms L and U are both subject to a 40% corporate tax rate, repeat the...
Using Rstudio to this question. Begin with
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For each of the following simulation studies, please try two different sample sizes (n 30 and n 300). When comparing the estimators, you need to consider both of the bias and variance of the estimates across 100 simulated samples with the same sizes. Please choose your own parameter(s) for the distributions 1. Conduct a simulation study to compare the method of moment estimator and MLE for the parameters of a Beta distribution...