Answer:
The <em>p</em>-value is well defined as per the probability, [under the null hypothesis (H₀)], of attaining a result equivalent to or more extreme than what was truly observed.
Step-by-step explanation:
The <em>p</em>-value is well defined as per the probability, [under the null hypothesis (H₀)], of attaining a result equivalent to or more extreme than what was truly observed.
We reject the null hypothesis if the <em>p</em>-value of a statistic is lower than the level of significance <em>α</em>.
And we fail to eject the null hypothesis if the <em>p</em>-value of a statistic is greater than the level of significance <em>α</em>.
A lower <em>p</em>-value indicates that the result is statistically significant.
And a higher <em>p</em>-value indicates that the result is not statistically significant.
Answer:
could you show a more full photo so I can see the whole question
ANSWER
{
}
EXPLANATION
From the graph, the given quadratic inequality is
We can see that the corresponding quadratic function is a perfect square.
Since the graph opens upwards and it is always above the x-axis, any real number you plug into the inequality, the result is greater than or equal to zero.
Hence the solution set is
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The correct answer is A
Answer:
4n2−4
Step-by-step explanation:
2n(2n)+2n⋅−2+2(2n)+2⋅−2
He will travel 55km In 2.5 hours at a rate of 22kmph
