Kinematics and Motion Formulas

Interactive Video

•

Physics, Science

•

9th - 12th Grade

•

Hard

Aiden Montgomery

FREE Resource

The video tutorial covers equations of motion, focusing on constant speed and acceleration. It explains the difference between speed and velocity, and distance and displacement. Key formulas for calculating velocity and acceleration are discussed, along with their applications in kinematics. The tutorial also connects calculus concepts, such as derivatives and integrals, to motion equations, providing a comprehensive understanding of motion in physics.

10 questions

Show all answers

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What is the formula for calculating distance when an object moves at a constant speed?

D = T/V

D = V/T

D = V^2T

D = VT

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Which of the following is a vector quantity?

Velocity

Speed

Time

Distance

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

How do you calculate horizontal displacement?

Initial velocity times time

Final position minus initial position

Initial position minus final position

Final velocity times time

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What is the formula for average acceleration?

a = V_initial / T

a = (V_final - V_initial) / T

a = V_final / T

a = (V_final + V_initial) / 2

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Which formula represents the final velocity in terms of initial velocity, acceleration, and time?

V_final = V_initial / aT

V_final = V_initial + aT

V_final = V_initial - aT

V_final = aT - V_initial

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What is the formula for displacement using average velocity?

Displacement = V_initial * T - 1/2 aT^2

Displacement = V_initial * T + 1/2 aT^2

Displacement = (V_initial + V_final) / 2 * T

Displacement = V_final * T - 1/2 aT^2

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

How can you express the final position in terms of initial position, initial velocity, and acceleration?

Final position = Initial position + V_initial * T + 1/2 aT^2

Final position = Initial position - V_initial * T + 1/2 aT^2

Final position = Initial position + V_initial * T - 1/2 aT^2

Final position = Initial position - V_initial * T - 1/2 aT^2

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