In: Why is there a “scientific method”?

Slides:

Advertisements

Similar presentations

The Benefits of exercise on the CV System.

Advertisements

Lesson 19 Heart_ily Fit. KEY VOCABULARY pulse quantitative data range regulate/regulation Variable Toxin.

Cardiorespiratory Endurance

The Effect of Various Types of Exercise on Heart Rate.

Exercise & Respiration

Muscular system We will learn about the muscular system by taking notes and doing a mini lab TEK 7.12B Warm up: draw the diagram describe the type.

CARDIORESPIRATORY ENDUCANCE HEART / LUNGS / BLOOD AND THE BODY.

Pulse Rate Investigation Introduction:  The following notes will enable you to gain an understanding of the theory needed for the pulse rate investigation.

Heart Rate 5/03/2012 SHMD 139.

Introduction to Science: The Scientific Method

Pulse rate practical.

Review Question Procedures Purpose: Reinforce information taught in previous classes – lets you know what you learned and what you may need to review.

Unit 3: Environmental Requirements and Growth Factors Group Work.

Objective: How Does Fatigue Affect Muscle Performance

L21: 21.1 “Exploring Muscle Fatigue”. QUESTION: What effect does repeated exercise have on skeletal muscles?

To measure the pulse rate and blood pressure of people before and after the use of treadmill and observe the change based on age group and amount of exercise.

The Scientific Method A blueprint for experiment success.

Everything you need to know to successfully use THE SCIENTIFIC METHOD.

Scientific Method A systematic approach to problem solving.

The Scientific Method DescriptionSteps Lab terms & processes.

Why so small? Lab Problem: Why are cells so small? Background: Cells get nutrients in 3 ways: 1.Diffusion 2.Facilitated diffusion 3.Active transport.

“Making Connections” NYSED Lab

National 4 Science Human Health Pulse.  Learning intentions:  What is pulse?  Where in the body can pulse be felt?  What low tech instruments can.

Initiation: 1.Read the article from Berkeley on your desk. 2. On you Initiation/Termination Sheet -Explain the steps of the Scientific Method that you.

+ 1/24/13 Objective Develop a proper hypothesis Warm-Up 1. Give an example of a good resource. 2. What are two types of questions?

Lab Report Format: Steps of the Scientific Method.

DO NOW! 1. Identify three things that are accomplished during

What is scientific method? Section 1-3. Scientific Method A model, or guide, used to solve problems.

Stick it! Can you stick the target and word sheets for the next topic in please?

Before you start get or make a copy of this Table of results

 No matter how strong you look, if your circulatory and respiratory system cannot meet your muscles’ demands, you cannot continue activity for a long.

Building a Model. What is a MODEL? Set of ideas that explains a natural phenomena Always subject to change –New discoveries/New data.

I wonder if,……… How to use the scientific process to find answers to what you wonder about.

Scientific Method. Scientific Method: Ask a question (or a problem) : What is it you want to find out?

C ENTER FOR T ECHNOLOGY IN T EACHING AND L EARNING Exercise and the Body Types of exercise Quantity of exercise Gender of exerciser Intensity level of.

1.Take out last night’s HW & a red pen then….one piece of binder paper 2.Write your name, date, period in the right corner 3.Title it: Silent Starters.

Introduction to Science: The Scientific Method. What is the Scientific Method? Step-by-step way in which scientists answer questions. Step-by-step way.

S CIENTIFIC M ETHOD. Step 1 of the Scientific Method is to __________.

Do Now 1.Which is responsible for dropping off carbon dioxide at the lungs – systemic or pulmonary circulation? 2.What is a structural difference between.

MEASURES OF CARDIOVASCULAR FITNESS

STEP TO THE BEAT Alaina Kelly Gini Vincent. PROBLEM  Which activity increases your heart rate the most in a 60 second time period ?  Push- ups  Running.

Intensity level of exercise

The Scientific Method Review

“Making Connections” NYSED Lab

How to display data clearly & effectively

L8: Exercise Learning Objectives:

Experiment Questions Heart & Breathing Rate.

MEASURES OF CARDIOVASCULAR FITNESS

Experiment Questions Heart & Breathing Rate.

Do Now: Read and answer the two questions below. What causes fatigue?

Lab investigation… Question: How will your body respond to the stimulus of increased physical activity? What “tests” should we perform? What data do we.

Today you need pencil, folder, notebook

When I started to run up and down the stairs…

Living Things need… Water Oxygen Energy (food)

“Making Connections” NYSED Lab

FINDING YOUR PULSE RATE

Intensity level of exercise

Exercise and Cellular Respiration Lab Qs

Quarter 4 Week 5 Respiratory System.

How does Exercise affect blood pressure?

Do Now: Answer the following in your Science Notebook using complete sentences.

Before you start get or make a copy of this Table of results

Intensity level of exercise

“Making Connections” NYSED Lab

First, Look for a pattern…

Ms. Moreno’s Science Class

Challenge – use data to make comparisons

This is how we do science!!

“Making Connections” NYSED Lab

Presentation transcript:

In: Why is there a “scientific method”?

Learning goals : Students understand and use the scientific method to do an experiment. Success Criteria: Students know the steps of the scientific method, and can write a proper scientific conclusion.

Area of Interaction: Human Ingenuity MYP Unit Question: How can the scientific method be applied to problems that are not scientific?

Ask a Question Do Background Research Construct a Hypothesis Test Your Hypothesis by Doing an Experiment Analyze Your Data and Draw a Conclusion Communicate Your Results

Heart Rate Lab

Problem: How does exercise affect heart rate? Heart Rate Lab Problem: How does exercise affect heart rate?

Problem: How does exercise affect heart rate? Background: Heart Rate Lab Problem: How does exercise affect heart rate? Background:

Problem: How does exercise affect heart rate? Background: Hypothesis: Heart Rate Lab Problem: How does exercise affect heart rate? Background: Hypothesis:

Heart Rate Lab Problem: How does exercise affect heart rate? Background: Hypothesis: Materials:

Procedure: Determine heart rate while sitting. Determine heart rate while standing Walk in place for 1 minute and find heart rate Jog in place for 1 minute and find heart rate. Run in place for 30 seconds and find heart rate. Record all data.

Data: Activity Heart Rate (BPM) Graph your data… Sitting (BMR) Standing Walking Jogging Running Graph your data…

Data Analysis: What is your graph showing? Is there anything that doesn’t really fit? Explain.

Conclusion: The purpose of this lab was to determine the effects of exercise on heart rate. We did this by doing a series of activities that affected heart rate, including sitting, standing, walking, jogging, and running.

Conclusion: The purpose of this lab was to determine the effects of exercise on heart rate. We did this by doing a series of activities that affected heart rate, including sitting, standing, walking, jogging, and running. The data showed that the heart rate increased with increasing exercise, going from 66 bpm for walking up to 106 bpm for running, so the data did support the hypothesis.

Conclusion: The purpose of this lab was to determine the effects of exercise on heart rate. We did this by doing a series of activities that affected heart rate, including sitting, standing, walking, jogging, and running. The data showed that the heart rate increased with increasing exercise, going from 66 bpm for walking up to 106 bpm for running, so the data did support the hypothesis. An explanation of the data is that as exercise increases, more oxygen is needed by the muscles for cellular respiration to produce more energy, so the heart must beat faster to supply the O2 to the muscles.

Conclusion: The purpose of this lab was to determine the effects of exercise on heart rate. The data showed that the heart rate increased with increasing exercise, going from 66 bpm for walking up to 106 bpm for running, so the data did support the hypothesis. An explanation of the data is that as exercise increases, more oxygen is needed by the muscles for cellular respiration to produce more energy, so the heart must beat faster to supply the O2 to the muscles. Some errors may have occurred during the lab.

Since heart rate was taken by counting for 15 seconds, and multiplying by 4, there is an error of +/- 4 bpm built in to the procedure. Miss-counting could also have been a factor, causing the heart rate to be higher or lower by a few beats, but not affecting the overall results of the experiment.

Since heart rate was taken by counting for 15 seconds, and multiplying by 4, there is an error of +/- 4 bpm built in to the procedure. Miss-counting could also have been a factor, causing the heart rate to be higher or lower by a few beats, but not affecting the overall results of the experiment. This lab could have been improved by using heart rate monitors to get an exact count of beats, and by doing several trials of each activity to find an average heart rate for each activity.

Other questions that I have relative to this lab are: how does activity affect blood pressure? How does an athlete’s heart rate compare to an average person’s heart rate? What is the affect of age on heart rate?

Other questions that I have relative to this lab are: how does activity affect blood pressure? How does an athlete’s heart rate compare to an average person’s heart rate? What is the affect of age on heart rate? This related to today’s objectives by showing how to use the scientific method and how to write a conclusion.

Out: What is the scientific method Out: What is the scientific method? Don’t make a list, just tell me what it is.