![]() Since the one-time license fee covers unlimited devices and user accounts, there’s no restrictions or limits on usage. Despite the unappealing interface, the software offers all the features you’d want in an analytics tool. It’s a must-have for educators and students in the field of chemistry. Overall, Logger Pro is one of the most powerful apps for data analysis and collection. It looks bland and doesn’t offer much in terms of intuitiveness or interactivity. The only drawback of this data collection tool is the outdated interface. This lets you test features, functionalities, and other aspects of the program. The graphing software requires a one-time payment and comes with a 30-day trial. Also, you can install it from a CD or a simple download button. As such, a single version of the app is useable on multiple PCs simultaneously.īoth teachers and students can use the program on their personal computers via online user accounts. But the development team has been quite generous with the site license and lets an entire college or school department to use the program. t) will look like and (2) to use Logger Pro software to analyze a digital video clip of a rolling ball to test your prediction and find the speed of the ball as a function of time. Your goal in this activity is (1) to predict what a graph of the ball’s position vs. The data monitoring software doesn’t come with a professional license. Imagine a pool ball rolling briskly along on a flat, level track for a distance of less than a meter. Unfortunately, it’s not meant for commercial, medical, or industrial application. However, the versatility of the program makes it an excellent choice for teaching students in the field of chemistry. Logger Pro has been designed for educational purposes. However, you’ll have to use a Windows desktop or laptop to work with the shared data. If required, the data is shareable to handheld devices. ![]() With the solid analytics tool, students can conveniently export their lab reports to MS Excel or Word and write them manually to develop experiment files. It also includes more than 1,000 experiment files supported by a comprehensive library of lab books. The program comes with 12 built-in demos and tutorials, making it easier for students to get a hang of the product. This means it lets users get extensive modelling and graphical data, which is compatible with numerous modes, sensors, and other elements.Ī major advantage of using Logger Pro is the user-friendliness aspect. The data analysis software features GPS support and Ocean Optics Spectrometer. You can also draw predictions on the graphical representations. This helps you gather data, which you can analyze frame-by-frame. ![]() Additionally, Logger Pro has advanced features, which let you capture the screen for visual records. What features are there?įor easy setup, the application comes with some basic features, such as auto-ID sensors, manual data entry, functionality to export and import findings, multiple data collection modes, etc. When compared to Prezi Desktop, Stata, and Power BI Desktop, it lets you perform different kinds of statistical analysis. ![]() It can also collect data from a range of sources, including LabPro, LabQuest 2, LabQuest 3, etc. The powerful data collection app supports more than 80 Vernier sensors for accurate real-time analysis and graphing. At the same time, you can use it to measure the results. The tool is compatible with different sensors and connects your Windows PC to process collected information. Logger Pro is a high-end graphing software program, which has been developed for data monitoring, analysis, and collection. Get detailed insights of your experiments in a graphical form A ∥ = Σ F ∥ m (use Newton’s second law for the parallel direction) a ∥ = m g sin θ − F k m (plug in the parallel forces) a ∥ = m g sin θ − μ k F N m (plug in the formula for the force of kinetic friction) a ∥ = m g sin θ − μ k ( m g cos θ ) m (plug in m g cos θ for the normal force F N ) a ∥ = m g sin θ − μ k ( m g cos θ ) m (cancel the mass that’s in the numerator and denominator) a ∥ = g sin θ − μ k ( g cos θ ) (savor the awe when you realize the acceleration doesn’t depend on mass) a ∥ = ( 9.8 m s 2 ) sin 3 0 ∘ − ( 0.150 ) ( 9.8 m s 2 ) cos 3 0 ∘ (plug in numerical values) a ∥ = 3.63 m s 2 (calculate and celebrate) \begin 0 0 0 0 sin θ cos θ sin θ tan θ θ θ θ = m g sin θ − μ s F N (plug in formula for maximum static friction force ) = m g sin θ − μ s ( m g cos θ ) (plug in expression for normal force on an incline ) = m g sin θ − μ s ( m g cos θ ) (divide both sides by m g ) = sin θ − μ s ( cos θ ) (savor the awe when you realize the angle doesn’t depend on the car’s mass) = μ s ( cos θ ) (solve for sin θ ) = μ s (divide both sides by cos θ ) = μ s (replace cos θ sin θ with tan θ ) = tan − 1 ( μ s ) (take inverse tangent of both sides) = tan − 1 ( 0. ![]()
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