Plate tectonics is the theory that the earth’s crust is made up of plates that glide over a layer of mantle. a prediction of this theory is that the plates will move relative to each other as they move over the mantle. to test this hypothesis, a scientist places a marker on two adjacent plates to measure their movement over a decade. what would be the expected result of the experiment? how would you interpret the results if the scientist sees no movement?

Consider the motion of the balloon and its air contents in terms of momentum. in step 1 above, the total momentum of the balloon and its contents was zero. recall that momentum = mv. both the balloon and the air inside it had a velocity of zero and therefore the total momentum was zero. now think about what happened when the air escaped from the balloon. a certain mass of air accelerated in one direction. in order to keep the total momentum of the system zero, the balloon itself (which has mass) had to accelerate in the opposite direction. use this scenario to you explain why the soda can rotates when the water squirts out of the escape holes. what was your hypothesis concerning the water-filled can? according to your data, do you think your hypothesis was correct? (be sure to refer to your data when answering this question.) summarize any difficulties or problems you had in performing the experiment that might have affected the results. describe how you might change the procedure to avoid these problems. give at least one more example of newton's third law in everyday life.

Drag the tiles to the correct boxes to complete the pairs. match the nitrogenous base of dna with its complement.

The structure that houses the cells genetic information.