It adds explanations after technical or specialized terms
I thought of the idea while doing psychology-related research, since I'm very unfamiliar with its English terminologies.
Useful for
1. News reading: Helps readers quickly understand complex topics in news articles, such as economics, science, or politics, without needing to search for explanations.
2. Cross-disciplinary reading/research: Enables readers and researchers to grasp unfamiliar terms from fields outside their expertise, fostering interdisciplinary learning and collaboration.
3. Language comprehension: Provides real-time clarifications for jargon-heavy content, helping non-native speakers or those with limited exposure to specialized terms better understand the material.
Example of effect:
Before: The quantum entanglement phenomenon demonstrates nonlocality, challenging our understanding of quantum mechanics and EPR paradox.
After: The quantum entanglement (a phenomenon where particles remain connected regardless of distance) phenomenon demonstrates nonlocality (the ability of particles to instantly influence each other at any distance), challenging our understanding of quantum mechanics and EPR paradox (a thought experiment questioning quantum mechanics' completeness).
I thought of the idea while doing psychology-related research, since I'm very unfamiliar with its English terminologies.
Useful for 1. News reading: Helps readers quickly understand complex topics in news articles, such as economics, science, or politics, without needing to search for explanations. 2. Cross-disciplinary reading/research: Enables readers and researchers to grasp unfamiliar terms from fields outside their expertise, fostering interdisciplinary learning and collaboration. 3. Language comprehension: Provides real-time clarifications for jargon-heavy content, helping non-native speakers or those with limited exposure to specialized terms better understand the material.
Example of effect:
Before: The quantum entanglement phenomenon demonstrates nonlocality, challenging our understanding of quantum mechanics and EPR paradox.
After: The quantum entanglement (a phenomenon where particles remain connected regardless of distance) phenomenon demonstrates nonlocality (the ability of particles to instantly influence each other at any distance), challenging our understanding of quantum mechanics and EPR paradox (a thought experiment questioning quantum mechanics' completeness).