I've been eating through my school's past papers, I found this question:
"Explain how the Earth's rotational motion (sic) would influence the aiming of the cannon in order to hit a target which is geographically due north of it"
I answered that it wouldn't affect it at all, because the target and cannon aren't moving, relative to each other (because they are both moving with the spin of the Earth).
The answers say:
"The velocity of the Earth's surface is greater at the equator. Thus as a shell is fired N it also gains this lateral velocity. As it travels N it moves East of its target as the velocity of the Earth's surface is less, further North."
Is this correct? (it must be, but... still, it doesn't seem intuitive)
(BTW, this was part B of a three part question, in part a, we calculated that the horizontal velocity was 199m/s.)
Thanks,
Fred.
"Explain how the Earth's rotational motion (sic) would influence the aiming of the cannon in order to hit a target which is geographically due north of it"
I answered that it wouldn't affect it at all, because the target and cannon aren't moving, relative to each other (because they are both moving with the spin of the Earth).
The answers say:
"The velocity of the Earth's surface is greater at the equator. Thus as a shell is fired N it also gains this lateral velocity. As it travels N it moves East of its target as the velocity of the Earth's surface is less, further North."
Is this correct? (it must be, but... still, it doesn't seem intuitive)
(BTW, this was part B of a three part question, in part a, we calculated that the horizontal velocity was 199m/s.)
Thanks,
Fred.
