Kinematics , Motion in 1 dimension , Position , Displacement , velocity , Position time graph , velocity time graph ,
This course on motion in 1dimention and 2dimention have been made for students studying physics in grade 11 and 12th. In this course you will learn about scaler and vector Physical quantities, uniform motion , non uniform motion. Define qualitatively and quantitatively displacement velocity and acceleration .
What you’ll learn
- Scaler quantities , Vector quantities, displacement , velocity and acceleration.
- Uniform Motion.
- Uniformly accelerated motion.
- Analysing displacement time and velocity time graphs.
- Acceleration due to gravity concepts and problems.
- 2 dimentional motion in horizontal and vertical plane.
- Interpret motion of one object relative to other.
Course Content
- Introduction –> 34 lectures • 8hr 14min.
Requirements
This course on motion in 1dimention and 2dimention have been made for students studying physics in grade 11 and 12th. In this course you will learn about scaler and vector Physical quantities, uniform motion , non uniform motion. Define qualitatively and quantitatively displacement velocity and acceleration .
Numerical based on displacement velocity , average velocity and acceleration.
Explain uniform and uniformly accelerated motion when provided with written descriptions and numerical and graphical data. Analyzing velocity time graphs .
Addition and subtraction of vectors and their application in Kinematics. Resolution of vectors and their application in Kinematics . Adding vectors using components. Adding two dimensional vectors graphically. Determining components. Adding Vectors using components.Polar coordinator method and navigator method and using them to solve problems vectorially. Adding non collinear vectors graphically and problems based on them.
Explain two dimensional motion in a horizontal or vertical plane and interpret motion of one object relative to other. Relative motion in air , non -collinear relative motion , Relative motion in water .Problems based on velocity of airplane with respect to wind and velocity of boat with respect to river.
Analyzing Projectile motion, horizontally projected projectiles and obliqully projected projectile motion. Range , maximum height and time of flight of projectiles. Numerical based on projectiles projected horizontally and obliqully.
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