The answer should be 4 syllables
a-gree-a-ble
i did the clap thing
<span>The myth of Cupid and Psyche illustrates several archetypes. First, it uses the situational archetype of the Tasks or Tests that Psyche must perform. Psyche herself is an example of the Ingénue and/or Maiden character. She is young and beautiful and grows into a clever young woman. Venus is portrayed as the Wicked Witch or Stepmother with her unreasonable demands. The story calls to mind several situational archetypes: Beauty and the Beast, True Love's Kiss, and the Power of Love are all seen in this story. Like the story of Beauty and the Beast, Psyche believes she is being sent to be the bride of a horrific serpent who hides himself from her by day. And like that story, she is also led to betray him by her sisters who convince her to spy on him. Cupid awakening her from her deep slumber is like the traditional True Love's Kiss delivered by countless princes to awaken their princesses. And the Power of Love conquers all when Psyche is made immortal so the two lovers can be united forever.</span>
The answer is 'by not fulfilling expectations'. The other options don't really surprise the reader, and if the plot is going into one direction, and then what you'd expect to happen doesn't actually happen, you are surprised, and the element of irony is achieved.
Thoreau lived on Emerson's land, which was the subject of one of his books.
<h2><u>Answer:</u></h2>
Transient measurable examination empowers you to analyze and demonstrate the conduct of a variable in an informational collection after some time (e.g., to decide if and how focuses are changing over the long haul.
Worldly explanatory strategies to follow nanoparticles in live cell would give rich data to surely know the biologic properties of nanoparticles in atomic dimension. Noteworthy advances in fluorescence microscopy procedures with high transient and spatial goals permit single nanoparticles to mark biomolecules, particles, and microstructures in live cells, which will address numerous principal inquiries in cell science.
Methods for observing the development of nanomaterials, for example, carbon nanotubes (CNTs), quantum spots (QDs), metal groups, upconver-sional nanomaterials, and polystyrene (PS) nanoparticles and so on in live cells. The organic properties of nanoparticles in live cells are likewise quickly abridged by fluorescence microscopy examines.
