Consider the value of t such that the area under the curve
between −|t| and |t| equals 0.95. Assuming the degrees of freedom
equals 30, select the t value
Consider the value of t such that the area under the curve
between −|t| and |t| equals 0.98. Step 2 of 2 : Assuming the
degrees of freedom equals 12, determine the t value. Round your
answer to three decimal places.
Consider the value of t such that the area under the curve
between −|t| and |t| equals 0.98.
Step 2 of 2:
Assuming the degrees of freedom equals 16, determine the t
value. Round your answer to three decimal places.
Consider the value of t such that the area under the curve
between −|t| and |t| equals 0.99.
Step 2 of 2:
Assuming the degrees of freedom equals 8, determine the t value.
Round your answer to three decimal places.
Consider the value of t such that the area under the curve
between −|t|−|t| and |t||t| equals 0.9.
Step 2 of 2 :
Assuming the degrees of freedom equals 26, select the t value
from the t table.
Consider the value of t such that 0.025 of the area under the
curve is to the left of t.
Step 2 of 2: Assuming the degrees of freedom equals 26,
determine the t value. Round your answer to three decimal
places
Consider the value of t such that 0.01 of the area under the
curve is to the left of t.
Step 2 of 2 :
Assuming the degrees of freedom equals 10, select the t value
from the t table.
Consider the value of t such that 0.1 of the area under the
curve is to the right of t.
Step 2 of 2 :
Assuming the degrees of freedom equals 13, select the t value
from the t table.
Consider the value of t such that 0.025 of the area under the
curve is to the left of t. Step 2 of 2 : Assuming the degrees of
freedom equals 19, select the t value from the t table.
Consider the value of t such that 0.1 of the area under the
curve is to the left of t.
Step 2 of 2: Assuming the degrees of freedom equals 11,
determine the t value. Round your answer to three decimal
places.