| Mistake | Consequence | Solution | |---------|-------------|----------| | Confusing “not given” with “false” | Losing easy marks | If no sentence in passage confirms OR denies, choose NG. | | Overlooking synonyms | Missing correct match | Practice paraphrasing: “emit” = “release”, “signal” = “cue”. | | Reading every word | Running out of time | Skim first, then scan for keywords from the question. | | Ignoring diagrams | Missing spatial answers | If a figure shows bee dance angles, use it to verify. |
The passage notes that chemical emissions peak during peak daylight hours when bees are most active, directly contradicting the claim that it only happens at night.
The world of science is constantly evolving, with new methodologies emerging to tackle complex problems. One such phenomenon that created significant noise in the early 2000s—and remains relevant for understanding pharmaceutical advancement—is . Often featured in IELTS Academic Reading tests, the passage titled "A Buzz in the World of Chemistry" explores the rise of this revolutionary technique, its promises, and the skepticism surrounding it. a buzz in the world of chemistry reading answers with
Train yourself to actively think of synonyms as you read.
If you'd like, I can rewrite this as a shorter blurb, a longer critical review, or tailor it to a specific audience (e.g., students or journal readers). | | Ignoring diagrams | Missing spatial answers
The promise that "this miraculous technology" will make drug discovery faster and more efficient. C. Skepticism and Reality Check
Von Frisch discovered that bees communicate food location through a series of figures resembling the number ________. Answer: eight (referencing the “figure-eight dance”) One such phenomenon that created significant noise in
The text typically breaks down into several key discussions: A. The Promise of Rapid Development
: This phrase corresponds to the text mentioning it as a "buzz term" or "buzzword".
After the development of solid-phase peptide synthesis in the 1960s by Merrifield, synthetic peptide chemists were also doing permutation and combination sums. There are 20 naturally occurring amino acids, the building blocks of peptides and proteins, the workhouse molecules of life. How many ways can these be arranged, or chemically bonded, to synthesize novel peptides which might be put to any number of uses in the pharmacy? If we take just one molecule of each of the 20 amino acids and join them together to form a peptide, we find that we can arrange these in 20! (2.432902008177×10¹⁸) ways. Nature knows no such restraint; it can use multiple copies of each amino acid, and so can synthesize 20²⁰ (1.048576×10²⁶) twenty-amino-acid peptides. Proteins contain hundreds of amino acids.