This calculator provides symbolic and numerical differentiation of mathematical functions. It’s designed for educational purposes to help students understand the concepts of calculus and derivatives. Function Input Enter a function f(x) Enter a mathematical function using x as the variable. For example: x^2, sin(x), e^x, etc. Function Preview Derivative Order Select the order of the […]
Read MoreCalculate radar blind speeds using the formula: \[ v_n = n \times \frac{c \cdot \text{PRF}}{4 f_0} \] where: – \( c \) is the speed of light (\(3 \times 10^8\,\text{m/s}\)), – \( f_0 \) is the radar frequency (input in GHz), – PRF is the pulse repetition frequency (in Hz), – \( n \) is […]
Read MoreCalculate the resultant force vector using the parallelogram law of forces. Enter the magnitudes of two forces \( F_1 \) and \( F_2 \) and the angle \( \theta \) between them. * All values should be in SI units (Newtons for forces and degrees for the angle). Step 1: Enter Parameters Force \( F_1 […]
Read MoreCalculate the parameters of a projectile launched from an elevated position. Enter the initial velocity \( v_0 \), launch angle \( \theta \), initial elevation \( h \), and gravitational acceleration \( g \). * Ensure all values are in SI units: m/s for velocity, m for elevation, and m/s² for gravity. Step 1: Enter […]
Read MoreCalculate the parameters of a projectile launched on level ground. Enter the initial velocity \( v_0 \), launch angle \( \theta \), and gravitational acceleration \( g \). * Ensure the values are in SI units: m/s for velocity and m/s² for gravity. Step 1: Enter Parameters Initial Velocity, \( v_0 \) (m/s): Example: 20 […]
Read MoreProjectile on an Incline (Downward Launch) Calculator Projectile on an Incline Calculator(Downward Launch) Calculate the parameters of a projectile launched from an elevated point above an inclined plane with a downward initial direction. The projectile is launched with an initial velocity \( v_0 \) at an angle \( \theta \) relative to the horizontal, the […]
Read MoreProjectile on an Incline Calculator Projectile on an Incline Calculator Calculate the parameters of a projectile launched from the base of an inclined plane. The projectile is launched with an initial velocity \( v_0 \) at an angle \( \theta \) relative to the horizontal, while the plane is inclined at an angle \( \beta […]
Read MoreAcceleration Due to Gravity Calculator Acceleration Due to Gravity Calculator Calculate the acceleration due to gravity at different altitudes using the formula: \( g = g_0\left(\frac{R}{R+h}\right)^2 \) where \( g_0 \) is the acceleration at sea level, \( R \) is the Earth’s radius, and \( h \) is the altitude above the surface. * […]
Read MoreTerminal Velocity Calculator using Stoke’s Law Terminal Velocity Calculator using Stoke’s Law Calculate the terminal velocity of a sphere using Stoke’s Law: \( v_t = \frac{2}{9}\frac{r^2 (\rho_p – \rho_f) g}{\mu} \) where \( r \) is the sphere’s radius (m), \( \rho_p \) is the particle density (kg/m³), \( \rho_f \) is the fluid density […]
Read MoreProjectile Motion Trajectory Calculator Projectile Motion Trajectory Calculator Calculate the projectile motion parameters using the formulas: \( T = \frac{2v_0\sin(\theta)}{g} \), \( H = \frac{v_0^2\sin^2(\theta)}{2g} \), and \( R = \frac{v_0^2\sin(2\theta)}{g} \). where \( v_0 \) is the initial velocity (m/s), \( \theta \) is the launch angle (degrees), and \( g \) is the […]
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