Barbie Bungee Jump.

Slides:

Advertisements

Similar presentations

Jump, Don’t Bump! Bungee Jumping. Bell Ringer Adventures, Inc. has hired your student engineering team to design a thrilling event for their new amusement.

Advertisements

Soaring Straws Lab Question: How does the gravitational potential energy of a straw rocket depend on the elastic potential energy of the rubber band launcher?

Chapter 9: Quadratic Equations and Functions

Barbie Bungee Jumping Lab

Graphing. Data Tables Time(seconds)Distance(meters) Straight lines drawn with a ruler Independent Variable Dependent Variable Units.

Barbie Bungee Jumping: Graphing and Extrapolating Data

Barbie Bungee Jumping: Graphing and Extrapolating Data

Graphing Energy Conversions. All Energy is the ability to do work – we just have different clues to keep track of! Gravitational PE – Height above ground.

Name:__________ warm-up 10-1 What are the coordinates of the vertex of the graph of –3x = 12x? Is the vertex a maximum or a minimum? Solve x 2 +

Graphing. Independent vs. Dependent In an experiment, the variable that YOU change is the Independent Variable In an experiment, the variable that YOU.

Wednesday Warm Up October 16.

T HE B UNGY E XPERIENCE Barbie and Friends go for a Bungy Jump – the analysis of the event.

$100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300.

Chapter 5 Quadratic Functions Review. Question 1a Identify the vertex, the axis of symmetry, create a table, then graph. y = x² - 8x + 5.

5.5 Quadratic Equations Quizzes back TOMORROW…I hope…

9-4 Quadratic Equations and Projectiles

$100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300.

Projectile Motion. We are going to launch things, and then find out how they behave.

Pre-Lab 7B: Conservation of Energy

Observation: Brad and Sara were playing at recess with the same type of ball. Brad noticed that when Sara bounced the ball close to the ground, it didn’t.

By: Hanna Briestensky Problem Determine how the height from which the ball is dropped, effects how high that the ball will bounce back up.

Experimental Design: Variables Erin Wasson EME6507 May 30, 2013.

Barbie Bungee Jump Question: How many rubber bands will it take for Barbie to safely Bungee off of the stairwell balcony?

Vertical Motion Problems

The Quadratic Formula Chapter 8.6. The Quadratic Formula If, then.

Engineering Solutions Event October 29, Engineers ●Design products & processes ●Test safety.

The Super Ball Project. QUESTION Does a surface effect the bounce of a super ball?

By: Will Schubert. Determine how the height you drop a ball from affects the height the ball bounces back up. Problem.

Day 15: Quadratics. 1. Which ordered pair represents one of the roots of the function f(x) = 2x 2 + 3x − 20? F (− 5/2, 0) H (−5, 0) G(−4, 0) J (−20, 0)

5.5 Quadratic Equations. Warm-up Factor fully. Solving by Factoring 1a) Solve.

1008 B : Connections AP CALCULUS. What is the Derivative? The Derivative represents _____________________________ A) IN MATH.

Title: By:. Experimental Design Problem- What is the effect of ___________ on the ____________________________? IV: Levels of the IV [Put your Control.

Chapter 5 Test Review. GIVEN: Name the vertex: Explain how you know: Name the axis of symmetry: Name the y-intercept: Graph the equation.

Lesson Velocity PVA, derivatives, anti-derivatives, initial value problems, object moving left/right and at rest.

4.5 “Square Roots”. More Examples Rationalizing the Denominator.

When measuring length, always: -measure from the 0 line (not the end of the ruler) -measure from the correct ruler side -look at eye level Measurements:

Rate of Change. What is it? A slope is the rate at which the y changes as the x changes Velocity is the rate the position of an object changes as time.

ENERGY. KINETIC ENERGY ENERGY OF MOTION THE FASTER AN OBJECT MOVES; THE MORE KE IT WILL HAVE KE IS ALWAYS “+”, IF YOU ARE MOVING; THEN YOU HAVE IT. EXAMPLE:

Ball and Ramp By: Jeremy Newman. Hypothesis O I predict as the drop height increases the distance between bounce 1 and 2 will grow.

…about graphing data -plot data on a graph with correct axes -include appropriate labels and units on a graph.

What is the effect of stretching on jumping? Purpose.

DATA COLLECTION/ANALYSIS Physics with Technology.

NOTES 0-5C QUADRATIC FORMULA Student Learning Goals: Students will be able to solve quadratic equations using the quadratic formula.

2.2 Basic Differentiation Rules and Rate of Change

Barbie Bungee Jumping: Graphing and Extrapolating Data

Solve Quadratic Equations by Finding Square Roots

Solving by factoring & taking square roots

Today’s Lesson: “SLOPES”

Samantha Pozzulo Coordinating Seminar Dr. Fothergill

Solve Quadratic Equations by Finding Square Roots

Warm-up Unit 3 Day 4 How do you graph a line?

Real World Questions with Parabolas

بسم الله الرحمن الرحيم الموضوع:الوضوء صفته وفرائضه وسننه

5.4 More Applications of Quadratics

Solving Quadratic equations by graphing.

9-4 Quadratic Equations and Projectiles

Use the substitution method

Equation Review Given in class 10/4/13.

Barbie Bungee Jump Question:

Rev Scott D Willson Central Baptist Christian Academy

Bell ringer- What effects the energy/speed of a pendulum?

Equation Review.

Calculus 3-4 Rates of Change.

Chapter 5.2 Review.

Algebra 1 Warm Ups 9/25 - 9/28.

Chapter 5, Unit 2: Kinetic & Potential Energy

Presentation transcript:

Barbie Bungee Jump

Give her the best bungee jump ever—without killing her. How many rubber bands will it take to get Barbie the closest to the ground without hitting? What you will get: 7 rubber bands, a Barbie, and a meter stick. Height from the pavement to the roof of the gym (including the launch pad): 190.5 in (483.9 cm)

What I need from you: Gather Data Organize It Graph It (Graph paper) Equation modeling your data. Find how many rubber bands your group will need (Drop height = 190.5 in or 483.9 cm)