Why do scientists use analysis methods when developing new technology?
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Final answer:
Scientists use analysis methods when developing new technology to enhance effectiveness and guide future research. This process involves using models, theories, laws, and analytical techniques to interpret data and test hypotheses, leading to continuous advancements across various fields.
Explanation:
Scientists use analysis methods when developing new technology to ensure the accuracy, efficiency, and effectiveness of their designs. The analytical process includes the use of models, theories, and laws to help interpret the data collected and guide future research directions. New technologies, such as mass spectrometry in protein analysis or enhanced microscopy techniques in physics, rely heavily on these analysis methods for progress and innovation.
Additionally, the process of testing and refining a hypothesis through experimentation and data analysis is at the heart of scientific inquiry. This systematic approach feeds into the development of new technology, contributing to the accuracy and reliability of the findings. Upon analyzing the results, scientists formulate new ideas that push the envelope of what is technologically possible.
Lastly, advancements in technology, whether they be in the realm of hardware or software, often drive discoveries in other fields. For example, breakthroughs in engineering have often led to significant developments in biology and chemistry. Therefore, the use of analysis methods in the development of new technology is not only crucial for the enhancement of the technology itself but also for its subsequent impact on other disciplines.
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Related Questions
Does a brick have thermal energy? Also does paper haven't thermal energy?
Sachi wants to throw a water balloon to knock over a target and win a prize. The target will only fall over if it is hit with a force of 0.035 N. The water balloon has a mass of 11.4 grams. How fast will Sachi have to make the water balloon accelerate to hit the target with enough force and win the prize?Round the answer to the nearest one tenth m/s2.The water balloon must accelerate m/s2.
Which of the following is a good rule of thumb for long drives
Explain why particles in a gas are free to move far away from each other.
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Answer:
one with 60g have the more potential
Explanation:
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Answer:
The number of protons in the nucleus of the atom is equal to the atomic number (Z). The number of electrons in a neutral atom is equal to the number of protons. The mass number of the atom (M) is equal to the sum of the number of protons and neutrons in the nucleus.
hope it helps:)
Answer:
Then number of electrons is equal to number of protons
Explanation:
Since protons are positive and electrons are negitive, they cancel each other.
HENCE THEY ARE NEUTRL
Hope it helps u...
Answers
The tiny, solid particles you find in the atmosphere serve as cloud condensation nuclei.
You see, in order for water to condense, the water must have a direct object, grammatically speaking.
Your answer: Tiny, solid particles in the atmosphere play a role in cloud formation by providing the object upon which water may condense to form clouds.
Hope this help!
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Explanation :
It is given that,
Area of the container,
Load carried by piston, m = 350 kg
Pressure on the upper surface of the liquid is defined as the force acting per unit area.
Mathematically it can be written as :
From Newton's second law of motion :
F = m a
So,
P = 3430 Pa ( Pa = pascal)
or
P = 3.43 kPa
So, the correct option is (D)
Hence, this is the required solution.
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Answer:
the bigger the mass, the smaller the acceleration and the smaller speed
Explanation:
this can be proven from the formula F = ma
F = m×speed/time
Or a practical example is that of a heavy object and a light object if pushed with the same force, it'll be observed that the small object moves faster or with a greater speed than the heavy object