Answer:
B. Toast popped out of the silver toaster, was seized by a spidery metal hand that drenched it with melted butter.
D. She had both ears plugged with electronic bees that were humming the hour away. She looked up suddenly, saw him, and nodded.
Explanation:
"Fahrenheit 450" is a dystopian novel written by Ray Bradbury. The novel is set in future, where the citizen are programmized by technology and books are banned.
The statements that shows that the novel is set in future are:
B. Toast popped out of the silver toaster, was seized by a spidery metal hand that drenched it with melted butter.
D. She had both ears plugged with electronic bees that were humming the hour away. She looked up suddenly, saw him, and nodded.
These two statements show the technological advancement in the society. For instance, a machine applying butter over toasted bread.
B: Actors. I think the direct quote is, "All the world's a stage, and one man in his time plays many parts."
<span>The correct answer is C. A chain of cause and effect contains an initial incident and a resulting consequence that occurs because of the initial incident. Here, the initial incident is the technology that allows cell phones to be used for texting. The result is that this texting often replaces email.</span>
Answer:
When pressing a solid material it can take a different shape or change in size, however when bending a solid material this does not happen.
Explanation:
Solid state materials at a certain temperature are characterized by:
- present a high cohesion between the molecules that form it (the particles are united by very high attractive forces that make them remain almost fixed)
- have a constant shape and volume often forming characteristic geometric structures such as crystalline structures
- they are incompressible
- are resistant to fragmentation
- they do not have fluidity because the particles can only vibrate around fixed positions
A flexible material cannot be molded and only accepts shape changes when bending.
You do not get new materials when pressing a solid material.