<u>Motion of an object with lot of inertia:</u>
All objects are immune to changes in orientation. This phenomenon is evident in all objects-inertia is present.
Inertia and mass are the major factors.
But are any objects more likely than others to avoid changes? Definitely yes!
There are various masses in the propensity of an object to avoid shifts in its movement. Weight is the quantity that depends only on an object's inertia. The more momentum an object possesses the more mass it has. A bigger body is more likely to stand up to changes in its movement.
Suppose on the physics demonstration bench, there seem to be two matching bricks. Nevertheless, one brick is made of concrete and the other brick is made of steel mould.
How can you say the brick had been the Styrofoam brick by raising the bricks? You should give the bricks the same push to change their movement. Brick with the least strength-and therefore brick with the least weight–is the brick that provides the easiest path.
Answer:
The latest archeological discoveries and forensic analyses suggest that the first humans who arrived in the Americas came around 5,000 years earlier than previously thought, and not necessarily by crossing a land brigde between Alaska and Syberia in the Bering Strait. The first arrivals date some 20,000 years ago.
Explanation:
Cortez was viewed as a god to the Aztecs. When he arrived, the proficized that a white bearded god would come and visit them, and it just so happened that that happened during the same year. So what happened is that upon arriving and speaking with Aztecs they realized that they could not defeat them upfront with their own forces so they decided to ally with the enimies of the Aztecs. They couldn't have slashed and burned nor could they have destroyed everything in their path because they were too small of a force. And treaties were clearly not just as look at what happened to the Aztecs.
CORRECT ANSWER D formed alliances with the enimies of the aztecs
The correct answer would be B .<span>Do larger objects fall faster than smaller objects</span>
