While science and technology influence each other, they are not the same.
"Many confuse the terms science and technology, often considering them synonyms. Roughly speaking there are two kinds of problems investigated by modern science. Some problems relate to a particular need such as how to produce a more effective or less expensive music storage device, how to increase the agricultural yield of a plot of land, or how to vanquish a particular disease—all worthy endeavors. These challenges are technological in nature and represent what is frequently called “applied” science. On the other hand, “pure” science aims at basic understanding of the fundamental nature of reality sometimes called “knowledge for knowledge sake.” Some of the discoveries of pure science, like the laser, were originally just curiosities until their utility later became apparent. Some technological innovations, such as the microscope, have provided scientists the ability to look more deeply into the ultimate nature of reality." McComas 2004, http://www.nsta.org/publications/news/story.aspx?id=49929).
Stories where this aspect plays an important role are:
♦ Can something like a NOTHING really BE in existence? This story tells you about the german mayor von Guericke and his losing game to prove the existence of the vacuum.
Guericke and vacuum
♦ The formulation of the mechanical equivalent of heat can be taken as a crucial step towards the formulation of the principle of energy conservation. Joule demonstrated in a series of experiments that mechanical work (which he still called 'mechanical force') can be converted at a constant ratio into heat.
Joule and energy
♦ By systematic use of highly sensitive scales, Lavoisier developed his keystone assertion, that mass in chemical reactions is unchanged.
Lavoisier and the conservation of mass
♦ What is the nature of heat – is it a substance or infinitesimal movement of matter? Among others, the Bavarian War Minister Benjamin Thompson, later known as Count Rumford, found an answer by analysing the drilling process for manufacturing cannons.
The mechanical theory of heat and Rumford's contribution