Yes; the corresponding angles are congruent. You can see that that triangle EFGH is a dilation from triangle ABCD. To be exact, if you multiply each side on triangle ABCD by 2.5, you get triangle EFGH. If it is a dilation, this means that the angles will stay the same.
It would be 11 perfect squares.
A binomial experiment must have all of the following:
a) A fixed number of trials.
b) The result of each trial is not affected by the results of the other trials (independence).
c) The probability of a 'success' is the same for each trial.
d) Each trial has only two possible outcomes, which are usually called 'success' and 'failure'.
Using the above criteria, the only choice of answer that qualifies as a binomial experiment is c) "flipping a coin 10 times and recording if it comes up heads."
Step-by-step explanation:
(log 0.04 − 2 log 0.3) / (1 − log 15)
<em>Change 1 to log 10.</em>
(log 0.04 − 2 log 0.3) / (log 10 − log 15)
<em>Use log property: a log b = log bᵃ.</em>
(log 0.04 − log 0.09) / (log 10 − log 15)
<em>Use log property: log a − log b = log (a/b).</em>
log (0.04/0.09) / log (10/15)
<em>Reduce fractions.</em>
log (4/9) / log (2/3)
<em>Change 4/9 to (2/3)².</em>
log ((2/3)²) / log (2/3)
<em>Use log property: log bᵃ = a log b.</em>
2 log (2/3) / log (2/3)
<em>Divide.</em>
2
Answer:
yes
Step-by-step explanation:
If you are dividing it will become 1 because 10 minus 10 equals 0. Anything to the power of 0 is 1 then you keep the base which is y so the answer is y
If you are multipling the answer will be y^10 because 10 plus 10 is 20 and you keep the base which is y