Presentation is loading. Please wait.

Presentation is loading. Please wait.

Warm Up Josh’s class is 95 m away. If he runs at 1.2 m/s, how long will it take him? If the bell is going to ring in 120 seconds, will he make it on.

Published byMelinda Jordan Modified over 5 years ago

Similar presentations

Presentation on theme: "Warm Up Josh’s class is 95 m away. If he runs at 1.2 m/s, how long will it take him? If the bell is going to ring in 120 seconds, will he make it on."— Presentation transcript:

1 Warm Up Josh’s class is 95 m away. If he runs at 1.2 m/s, how long will it take him? If the bell is going to ring in 120 seconds, will he make it on time? If Josh runs the first 50 m at 1.2 m/s, then slows to 0.9 m/s for the remaining 45 m, will he make it in 120 seconds?

2 What are kinematic equations?
“Kine-” = motion Kinesiology: the science of Human movement Kinesthesiology: Medical study of the movement of muscles Kinematics: the study of motion and movement Set of 4 equations that give us a fuller picture of an object’s motion because they connect distance, velocity, acceleration, and time Can be used to predict unknown information about an object’s motion

3 When do we use the kinematic equations?
The kinematic equations are used in situations of CONSTANT or UNIFORM acceleration

4 How do we use the kinematic equations?
This is where the GUESS method will become your best friend…

5 WHAT ARE THEY?? d = vit + ½ at2 vf = vi + at d = (vi + vf) 2 t
Displacement = d Initial velocity = vi or vo Final velocity = vf Time = t Acceleration = a vf = vi + at d = (vi + vf) 2 t vf2 = vi2 + 2ad

6 Picking the Right Equation:
Ima Hurryin is approaching a stoplight moving with a velocity of m/s. The light turns yellow, and Ima applies the brakes and skids to a stop. If Ima's acceleration is m/s2, then determine the displacement of the car during the skidding process.

7 All Together: Ben Rushin is waiting at a stoplight. When it finally turns green, Ben accelerated from rest at a rate of a 6.00 m/s2 for a time of 4.10 seconds. Determine the displacement of Ben's car during this time period.

8 Exit Question A feather is dropped on the moon from a height of 1.40 m. The acceleration of gravity on the moon is 1.67m/s2. Determine the time for feather fall to the surface of the moon. HW: 15 questions, including what you did today RC Car Lab Due Today!!

Download ppt "Warm Up Josh’s class is 95 m away. If he runs at 1.2 m/s, how long will it take him? If the bell is going to ring in 120 seconds, will he make it on."

Similar presentations

Describing Motion with Equations Notes

Describing Motion with Equations Notes
WE CAN ONLY USE THESE IN ONE DIRECTION AT A TIME (only X or only Y not both at same time)

WE CAN ONLY USE THESE IN ONE DIRECTION AT A TIME (only X or only Y not both at same time)
2.2 Acceleration Physics A.

2.2 Acceleration Physics A.
ACCELERATION. WHAT DO WE DO WHEN MOTION LOOKS LIKE THIS?

ACCELERATION. WHAT DO WE DO WHEN MOTION LOOKS LIKE THIS?
Chapter 3 Review Acceleration and Free Fall 1.When an object undergoes a change in velocity, it is said to be ______________. ans: accelerating/decelerating.

Chapter 3 Review Acceleration and Free Fall 1.When an object undergoes a change in velocity, it is said to be ______________. ans: accelerating/decelerating.
 What is the unit we use for speed?  m/s  What is the term for speed and direction?

 What is the unit we use for speed?  m/s  What is the term for speed and direction?
Statics and Dynamics Equations of Motion. s = displacement t = time u = initial velocity v = final velocity a = acceleration What are the variables?

Statics and Dynamics Equations of Motion. s = displacement t = time u = initial velocity v = final velocity a = acceleration What are the variables?
 Mechanics: The study of motion of objects ;]  Kinematics… WHAT IS THAT? › The science of describing the motion of objects  Measure by using graphs,

 Mechanics: The study of motion of objects ;]  Kinematics… WHAT IS THAT? › The science of describing the motion of objects  Measure by using graphs,
K INEMATIC E QUATIONS. The kinematic equations are a set of four equations that can be utilized to predict unknown information about an object's motion.

K INEMATIC E QUATIONS. The kinematic equations are a set of four equations that can be utilized to predict unknown information about an object's motion.
TODAY…DAY 7 Review Kinematics, do an activity to apply and understand the ideas Apply kinematics mathematically together.

TODAY…DAY 7 Review Kinematics, do an activity to apply and understand the ideas Apply kinematics mathematically together.
Do Now A car accelerates from 18.5 m/s to 46.1 m/s in 2.47 seconds. 1.Draw a picture. 2.Draw a motion diagram for the car. 3.Determine the acceleration.

Do Now A car accelerates from 18.5 m/s to 46.1 m/s in 2.47 seconds. 1.Draw a picture. 2.Draw a motion diagram for the car. 3.Determine the acceleration.
Acceleration and Gravity Chapter 4.4, Physics 2. Representing 1D motion Motion horizontally Motion vertically.

Acceleration and Gravity Chapter 4.4, Physics 2. Representing 1D motion Motion horizontally Motion vertically.
ACCELERATIONVector quantity which measures how velocity changes over time Determined by the difference between the initial velocity (Vi) and final velocity.

ACCELERATIONVector quantity which measures how velocity changes over time Determined by the difference between the initial velocity (Vi) and final velocity.
Aim: How do we use the kinematics formulas? Do Now: What is the difference between average velocity and instantaneous velocity? Quiz Tomorrow.

Aim: How do we use the kinematics formulas? Do Now: What is the difference between average velocity and instantaneous velocity? Quiz Tomorrow.
He Ashely is approaching a stoplight moving with a velocity of 30.0 m/s. The light turns yellow, and Ashley applies the breaks and skids to a stop. If.

He Ashely is approaching a stoplight moving with a velocity of 30.0 m/s. The light turns yellow, and Ashley applies the breaks and skids to a stop. If.
Equations of Motion Review of the 5 Equations of Motion.

Equations of Motion Review of the 5 Equations of Motion.
Motion Velocity & Acceleration. Speed vs. Velocity https://www.youtube.com/watch?v=DRb5PSxJerM.

Motion Velocity & Acceleration. Speed vs. Velocity
Kinematic Equations Chapter 2 Section 2. Accelerated Motion  Motion with constant acceleration is what we will mostly look at in this class  Example:

Kinematic Equations Chapter 2 Section 2. Accelerated Motion  Motion with constant acceleration is what we will mostly look at in this class  Example:
Warm Up. Warm Up – Another way A race car is slowed with a constant acceleration. The car is traveling 55 m/s initially and travels _______ meters before.

Warm Up. Warm Up – Another way A race car is slowed with a constant acceleration. The car is traveling 55 m/s initially and travels _______ meters before.
Intro to Motion. Displacement The vector of distance travelled Units= meters Xf= final displacement, where you end up Xi= initial displacement, where.

Intro to Motion. Displacement The vector of distance travelled Units= meters Xf= final displacement, where you end up Xi= initial displacement, where.

Similar presentations

Ads by Google