Yay okay :)
1) I don't see pictures but I want a sugar glider!
2) If it wouldn't fly away somehow yes I would
3) Yes I would keep it in a cage but only when i'm not home and it would be a big cage
4) I would let it play in my room and have pegs and such for it to hold on to
5) Yes ma'am
6) Keep it but give him $100 because I can't trust my baby with a stranger
Bonus) Yes
Here the absolute uncertainty is not given, so assume the last reported digit can vary by 1. That means the absolute uncertainty is 0.1 × 10^4 cm.
Now, when you perform math operations on the measurements, you have to adjust the absolute uncertainty of the final result. In particular:
1. If you multiply the measurement by some number "n" (which has zero uncertainty), then you must also multiply the uncertainty by "n".
2. If you square the measurement, then you must multiply the uncertainty by 2M (where "M" is the amount of the measurement)
3. And lastly, if you cube the measurement, you must multiply the uncertainty by 3M²So, if the measured radius is "R" (1.8x10^4 cm); and the uncertainty is "Δ" (0.1 × 10^4 cm), then the area is:
Area = πR² +/- π(2R)Δ
(Notice I multiplied the Δ by π (according to Rule 1 above) and then by (2R) (according to Rule 2) above.)
Relative uncertainty = absolute uncertainty / measured value, so:
Relative uncertainty in area = π(2R)Δ / (πR²)
= 2Δ/R
= 0.2 × 10^4 cm / (1.8 times; 10^4 cm)
(which is about 11%)
D destroyed buildings, fire, volcanoes. This is because the earthquake would mess with buildings' foundations, causing them to fall. This would cause fires across the area, and volcanoes are normally awakened by the earth tectonic plates moving, so eruptions would occur.<span />
The correct answer is true