Unit Name: Science in Sports

Lesson Name: The Nervous System (Voluntary and Involuntary Reaction)

Objectives:

To introduce the idea that nerves carry messages throughout the body and there are two main kinds of reactions that are changed/used in sports.

Target Age Group: 2-5 Graders

Materials:

One 12 inch ruler and one stop watch per group

Introductory Lecture:

Start by asking them about what their favorite sports? Talk about one sport in particular.. like soccer. Ask them what muscles are involved in playing the sports… hopefully they will say calves, etc etc and also the heart and muscles that control the diaphragm for breathing, etc.

Ask them how do these muscle know to move; what tells them? Hopefully they will say spinal cord and brain

How does the brain and spinal chord tell these muscles what to do? Nerve cells!!! (like playing telephone)

Today we are going to talk about the nervous system and how it relates to sports.

What are the parts of the nervous system? (show pics)

Nerves

Spinal Cord

Brain

(Central nervous system is brain and spine)

Neuron:

Cell body: contain the organelles that keep the cell alive

Dendrites: receive information from another cell

Axon: conduct messages away from cell body

Three types of neurons:

Sensory neuron: connect sensory organs to central nervous system

(what are sensory organs? Give examples… like eyes, ears, tongue?)

Motor neuron: connect central nervous system to muscles

What muscles?

Interneurons: connect neurons with neurons

Voluntary versus involuntary reaction

In voluntary reaction, you require a conscious processing of information. (signal goes all the way to brain and we actually think about what to do and then control the muscles with thinking)

What are some examples of voluntary reaction??

In involuntary reaction, you react without thinking.

At this point, split into two groups to talk about each system and do each activity separately. Then the two groups switch.

Voluntary Reaction:

We talked before about muscles and using your muscles in sports to say hit a ball (in baseball). How do we know when to hit the ball?

We see the ball, we think about how to hit it and then we move out muscles

How does what the eye see get through to the muscle? Where does this message travel through the body?

Message goes to the central nervous system… brain and spine

Brain or spine process what to do

Nerve cell carries message to the muscles

Muscles contract and you swing at the ball.

What affects reaction time?

Age: shortens from infancy into late 20s and then gets longer to the 50s and 60s

How awake you are/ other impairments

How much you practice.

Does this explain why most athletes are pretty young? 20s-30s

Mean age of gymnasts is 14-15

Why? Due to slower nervous speed; also old people tend to be careful

Does practicing make you faster at reacting? (Yes.. theoretically up to a certain point)

What are other examples of impairments? (fatigue, dizziness, etc)

Now do activity

Instructions: One student hold a ruler in the air with 0 inch marking closer to the ground. A second student holds thumb and forefinger around the ruler at the 0 inch mark. The first student drops the ruler without warning and the second student tries to catch it as fast as possible. Repeat 10 times and record the measurement where the ruler is caught.

At the end, come back and look at results…. Who got better? Tutor versus kid reaction time

Voluntary Reaction Worksheet

A batter has less than 0.25 seconds to react to a fast ball. How fat can you react?

Draw the path through your body that the signals travel that allow you to catch the ruler.

Convert the distance dropped to a reaction time using the table:

distance dropped / Reaction time
2 inches / 0.10 seconds
4 inches / 0.14 seconds
6 inches / 0.18 seconds
8 inches / 0.20 seconds
10 inches / 0.23 seconds
12 inches / 0.25 seconds
14 inches / 0.27 seconds
16 inches / 0.29 seconds
18 inches / 0.31 seconds

My Reaction Time Data:

Trial Number / Distance caught (Inches) / Reaction Time (seconds)
1
2
3
4
5
6
7
8
9
10

My Tutor’s Reaction Time Data:

Trial Number / Distance caught (Inches) / Reaction Time (seconds)
1
2
3
4
5
6
7
8
9
10

Would you be able to see the baseball and swing the bat in time? With more practice could you do it?

Involuntary Reaction:

  1. What happens to your body when you run?
  2. breath faster
  3. heart beat faster
  4. sweat
  5. thrity
  6. What else controlled by involuntary nervous system? (show the diagraph below)
  7. heart
  8. lungs
  9. viscera
  10. glands
  11. Can you control these systems?

a.  No, but your general health condition can make a difference in some of them. Use heart rate as an example.

Facts about heart rate

bpm (beats per minute) – unit for measuring heart rate

Average Resting Heart Rate for Various Ages
age / range (bpm) / Average (bpm)
0-1 month / 100-180
2-3 months / 110-180
4-12 months / 80-180
1-3 years / 80-160 / (130)
4-5 years / 80-120 / (100)
6-8 years / 70-115 / (100)
9-11 years / 60-110 / (88)
12-16 years / 60-110 / (80)
>16 years / 50-90 / (70)
Athelet / 40-60 / (50)
Polar bear / 46

Note: A trained athlete's heart can pump more blood with each beat so his or her heart rate is slower. Lance Armstrong (famous biker) has resting heart rate of 32-34bpm!

Heart rate increases during exercise

During exercise, the heart rate increases in order to pump more blood (which carries oxygen) to the working muscles. The brain sends nerve signals to the heart to control the rate.

What else can change heart beat?

When we are excited, scared, or anxious our heart gets a signal to beat faster. During a fever, the heart beats faster to bring more blood to the surface of the body to release heat and cool the body. The heart rate increases during and after a meal to send more blood to the digestive system.

Activity

Students will discover how their heart rate changes with exercise

Involuntary Reaction Worksheet

Resting heart rate
(bpm) / Heart rate after 30 jumping jack (bpm) / Heart rate after running around the building for 1 min (bpm)
Student 1
Student 2
Student 3
Tutor