Newton's first law of inertia states that all object in motion will continue in a straight line at a constant acceleration until acted upon by an unbalanced and outside force. In space, there is no friction to slow down and stop bodies such as the moon.
Gravity tries to pull the Earth and the...
Okay, so I'm learning the same exact thing in my science class. In fact, we just had a test over it today! So, the first one is a position vs. time graph, right? Okay, so the line that you're having trouble with is more of a little "hump" like shape. The "hump" basically means that the speed of...
I'm only in 9th grade math, so please don't give me complicated calculus answers. And I prefer if you give steps on how to solve each step. Thanks in advance!
1. 5^-2/p
2. 3x^-2/y
3. (x^-5) (y^-7)
4. 8/2c^-3
5. (6a^-1) (c^-3)/d^0
6. (9^0) (y^7) (t^-11)
Thanks emailanmol, you did really help a lot. I'm going to go into science class tomorrow, actually knowing what I'm doing. Also, thanks for the website too! :approve: See, I just got to this website (my norm was Yahoo! Answers) but physics really isn't...my best subject.
Thank you emailanmol for making it a lot simpler. I have another question, if you could answer it. When you find the "area under the curve" do you kind of mean like the rise over the run, or change in y over change in x?
And visa versa. And I'm only in 9th grade, so please don't give me any complicated answers or links. I just want to know simple stuff like, "If there is a straight horizontal line in a velocity vs. time graph, how would that look like on a position vs. time graph?" Basically, I just want to know...