Vernier Software & Technology Launches New Wireless Probe for AP and College-Level Chemistry
Go Direct Platinum-Cell Conductivity includes a lasting, rechargeable battery, in addition to a built-in temperature sensor to at the same time read conductivity and temperature. The sensors automatic temperature level compensation, which can be switched off to carry out conductivity research studies, allows students to calibrate the sensor in the lab and then make measurements outdoors without temperature changes affecting information.
To read more about Go Direct Platinum-Cell Conductivity, check out https://www.vernier.com/gdx-conpt
Like all Go Direct sensing units, Go Direct Platinum-Cell Conductivity connects by means of Bluetooth ® wireless innovation to any Chromebook ™, computer system, or suitable mobile phone with either the Vernier Graphical Analysis ™ or the Vernier Graphical Analysis ™ Pro app. Go Direct sensors can be utilized wired via USB or wirelessly via Bluetooth ® wireless innovation, enabling educators to pick the solution best for their class, lab, or other finding out environment.
Go Direct Platinum-Cell Conductivity features a large 0 to 20,000 μS/ cm range that guarantees optimum precision during various experiments, such as checking out the base hydrolysis of ethyl acetate under numerous conditions and other typical ecological tests of water samples
” Our brand-new probe has an epoxy body and platinum-cell noticing aspect that significantly supplies higher chemical compatibility. This probe allows students to determine the conductivity of strong acids, strong bases, and non-aqueous services during experiments without any risk of harming the sensor,” stated John Wheeler, CEO of Vernier Software & & Technology.” The durable Go Direct Platinum-Cell Conductivity Probe instantly changes its conductivity range in response to the concentration of the offered service to offer trainees with the most precise readings possible.”
Ideal for Advanced Placement ® (AP) Chemistry and college-level basic chemistry, the affordable and durable Go Direct Platinum-Cell Conductivity Probe from Vernier Software & & Technology assists trainees identify an options conductivity or the total ion concentration with high accuracy and chemical compatibility.
About Vernier Software & & Technology
Vernier produces cost effective and easy-to-use science user interfaces, sensors, and graphing/analysis software. With around the world distribution to over 150 countries, Vernier data loggers are used by teachers and trainees from primary school to university. Vernier technology-based options boost STEM education, increase knowing, build students important thinking abilities, and support the science and engineering practices detailed in the Next Generation Science Standards (NGSS).
. Vernier Software & & Technology has led the development of academic, clinical data-collection innovation for 40 years. Vernier was established by a former physics instructor and employs teachers at all levels of the company. The business is devoted to teachers and to developing innovative ways to learn and teach science, innovation, engineering, and mathematics (STEM) using hands-on science. Vernier creates easy-to-use and cost effective science interfaces, sensors, and graphing/analysis software application. With around the world distribution to over 150 countries, Vernier information loggers are used by educators and trainees from primary school to university. Vernier technology-based services enhance STEM education, increase knowing, build trainees critical thinking skills, and support the science and engineering practices detailed in the Next Generation Science Standards (NGSS). The Vernier business culture is grounded in Earth-friendly policies and practices, and the company offers a family-friendly work environment. To find out more, go to www.vernier.com.
” The long lasting Go Direct Platinum-Cell Conductivity Probe immediately changes its conductivity range in response to the concentration of the offered service to offer students with the most accurate readings possible.”
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