6 Questions
- What are the two equations that describe an object's velocity and displacement in constant accelerated motion?
The two equations are the velocity equation and the displacement equation.
- What does the integral of the velocity vs. time graph for constant accelerated motion provide?
The integral of the velocity vs. time graph provides an equation for displacement as a function of time.
- What is the acceleration due to gravity and how is it represented?
The acceleration due to gravity is the constant acceleration experienced by objects in free fall towards the center of Earth. It is represented by the letter $g$ and has a magnitude of $9.8 , \text{m/s}^2$.
What are the two equations of motion that describe an object's velocity and displacement in constant accelerated motion?
The two equations of motion are: $v(t) = v_0 + at$ (velocity equation) and $x(t) = x_0 + v_0t + \frac{1}{2}at^2$ (displacement equation).
What does the integral of the velocity vs. time graph for constant accelerated motion provide?
The integral of the velocity vs. time graph provides the equation for displacement as a function of time.
What is the acceleration due to gravity and how is it represented?
The acceleration due to gravity is the constant acceleration experienced by an object in free fall under the influence of Earth's gravity. It is represented by the letter $g$ and has a magnitude of $9.8 , \text{m/s}^2$ towards the ground.
Test your understanding of constant accelerated motion and equations of motion with this quiz. Explore how to construct equations for velocity and displacement based on a graph of velocity vs. time. Perfect for physics enthusiasts looking to strengthen their knowledge in this topic.
Make Your Own Quizzes and Flashcards
Convert your notes into interactive study material.
Get started for free
