ingridscience

Eye study

Summary
Students look at their own eye in a mirror to find identify visible parts. Use a flash light to change the size of the pupil.
Science topic (2005 curriculum connection)
Life Science: Characteristics of Living Things (grade K)
Life Science: Needs of Living Things (grade 1)
Life Science: Animal Growth and Changes (grade 2)
Life Science: Human Body (grade 5)
Materials
  • mirror each
  • flashlight for each pair
Procedure

Students look at their eye in the mirror.
Ask them to find their pupil. That is where the light comes in. It looks black because no light comes out again.
Find the iris, the coloured part. This is a muscle that opens and closes the pupil. What colour is your iris? What colour is your neighbour’s iris? Different people have different coloured iris muscles.
Students can find other parts of their eye e.g. eyelashes, sclera (white of the eye), eyelids.

Students can draw their eye.

We regulate how much light is coming into our eye by changing the size of the hole, the pupil.
Look at your eye in the mirror. Move the flashlight onto your pupil, then away, watching it.
Look for the pupil changing size. It should get smaller when the light shines on it, and larger when the light moves away.

Notes

Hard for Ks to manipulate mirror and flashlight - try in pairs.

Grades taught
Gr K
Gr 1
Gr 2
Gr 3
Gr 4
Gr 5

Colour reversal illusions

Summary
Stare at one coloured design for a long time, then look away and see inverse colours appearing.
Science topic (2005 curriculum connection)
Life Science: Animal Growth and Changes (grade 2)
Life Science: Human Body (grade 5)
Physical Science: Light and Sound (grade 4)
Procedure

Please note that in a class of students it is likely that one of them is at least partially colourblind (1 in 12 males are colourblind). As this is an activity distinguishing colours, these students will not be able to tell some colours apart and perceive some colours differently. The common red/green colour blindness means reds and greens (or colours containing reds and greens such as browns) look similar. More information at colourblindawareness.org and colorblindguide.com/post/the-advantage-of-being-colorblind.

Activity 1: Stare at the red and green cross for 20 seconds, then look at some blank white paper. Try not to blink after you move your gaze.

Activity 2: Stare at the black spot in the centre of the red circle for 20 seconds. Then slowly move the image away from your eyes, still staring at the black spot. You will see the inverse colour (light blue, or cyan) appearing as a halo around red circle.

The cells sensitive to a particular colour get tired when you stare at one colour for along time and stop sending signals to the brain. When you put white into the same field of view (either by moving your gaze, or by moving the image away from you), all the colour cells are now stimulated. The tired cells send a weak signal and the other cells send a strong signal, so you see the inverse colour from the original colour stared at.
(Staring at green makes green cells tires. Red and blue cells give a strong signal, perceived as magenta; inverse of red is blue and green giving cyan. Inverse of blue is red and green giving yellow).

Activity 3: Try making your own shapes from one or two bold colours. Use the method in activity 1 or 2 to play with colour perception.

About colourblindness:
About 1 in 12 men (8%) and 1 in 200 women in the world are colourblind, though not all the cases are extreme, and someone might not even realise they have partial colourblindness. Colour blindness is usually from a genetic cause (in your DNA and inherited from parents). The most common kind is red/green colourblindness, and is partial or complete loss of sensitivity to red and green colours. In the more extreme cases (protanopia - loss of red, and deuteranopia - loss of green) colours containing red or green appear yellow or brown, and blues and purples are confused. Less extreme cases (deuteranomaly - partial loss of green) are most common, where reds appear browner and purples appear bluer. https://en.wikipedia.org/wiki/Color_blindness#/media/File:Color_blindne…
Find out what it is like to be colour blind: http://www.colourblindawareness.org

Attached documents
Notes

This activity is hard for younger students, especially those that have a short attention span. Only a few students in science club grades K-2 were able to see the illusion. The dot is the easier of the two, as they may at least see the halo appearing if they don't see the image on white.
Try doing just the dot, then moving your head back to see the halo.

Grades taught
Gr K
Gr 1
Gr 2

Black bears: size, fur and food

Procedure

Introduction to lesson:
Introduce bears and what kinds of bears live near here.
Introduce the 3 stations that the students will rotate through (about 15 mins each) to learn more about bears, and the sheets for recording observations.

Station 1. How big is a black bear?

Station 2. How does a bear stay warm?

Station 3. What does a black bear eat? How much does a black bear eat?

Discussion and wrap up:
Review stations and what students found.
Listen to bear vocalizations and discuss what they mean.
Discussion of what to do if you see a bear, and answer other bear questions.

Grades taught
Gr 1

Bears: What and how much does a black bear eat?

Summary
Students see the foods that a black bear eats, and weigh it on a scale to compare to how much we eat.
Science topic (2005 curriculum connection)
Life Science: Characteristics of Living Things (grade K)
Life Science: Needs of Living Things (grade 1)
Life Science: Animal Growth and Changes (grade 2)
Materials
  • Scale with kg
  • Worksheet (attached)
  • Bags of food that add up to 5kg:

  • nuts (about 2kg)
  • berries aka dried fruit (1.5kg raisins and cranberries)
  • plants aka spinach (2 bunches) and alfalfa sprouts (2 boxes)
  • fish (plastic)
  • insects (plastic)
  • Skunk cabbage and berry branches if available
  • Bear skull if available
Procedure

Look at the foods that a black bear eats, and unnatural foods that they should not eat. Draw one of the foods they eat on the worksheet.
Add bear food to a scale until there is enough for one black bear “meal” (5kg), and record the amount on the worksheet. Compare with a person’s lunch (e.g. bagel and cheese)
If time, look at a bear skull to see the kinds of teeth they have.

Grades taught
Gr K
Gr 1
Gr 2

Bear fur study

Summary
Students touch real bear fur and examine the hair closely and compare it to their own.
Science topic (2005 curriculum connection)
Life Science: Characteristics of Living Things (grade K)
Life Science: Needs of Living Things (grade 1)
Life Science: Animal Growth and Changes (grade 2)
Materials
  • Bear fur (pelt if available)
  • Worksheet (attached)
  • Ruler with cm
  • Magnifiers
Procedure

See a real bear pelt and feel real bear fur. Find the underfur that keeps them warm, and the guard hairs that keep off rain and dirt. Use a magnifier to look at the fur closely.
Compare to their own hair. Draw bear fur and their own hair.
Measure how long bear fur is and record.
What do we wear that does the same job as the different kinds of bear fur?
If time, talk about how much fat a bear has (4cm). Compare to our own layer of fat.
If time, talk about different colours of bear fur.

Grades taught
Gr K
Gr 1
Gr 2

Bears: how big is a black bear?

Summary
Students measure a life sized template of a black bear, and compare it to themselves.
Science topic (2005 curriculum connection)
Life Science: Characteristics of Living Things (grade K)
Life Science: Animal Growth and Changes (grade 2)
Materials
  • Black bear template
  • Metre sticks
  • Worksheet (attached)
  • Bear footprint (if available)
  • Bear claws (if available)
Procedure

Use a metre stick to measure a template of a black bear, and find out how tall and how long a bear is. (It is on all fours, 2m long and 1m high). Record it on their worksheet.
Stand next to the bear template to compare its size to their own (are you taller/shorter, narrower/wider) and measure their own height if time and able.
Students fit their foot into a bear print, to compare sizes.
Students look at a model of bear claws and compare their size to their own nails.
They can use space on the worksheet to draw the bear paw or claws.

Attached documents
Grades taught
Gr K
Gr 1

DNA extraction from cheek cells

Summary
Students extract their own DNA from their cheek cells. Pair with looking at cheek cells under a microscope and a paper DNA coding puzzle.
Curriculum connection (2005 science topic)
Life Science: Animal Growth and Changes (grade 2)
Life Science: Human Body (grade 5)
Physical Science: Chemistry (grade 7)
Procedure

Look at cheek cells and extract DNA from cheek cells, whichever order is best.
Do a paper puzzle to show how a string of units can rearrange to make different images, an analogy for how the DNA letters in a different order give rise to all the different living things.
Optional: add ACTG letters to the DNA necklace.

Notes

At Tyee Elementary, we started the DNA activity, then while the students waited for me to pull it out of the tube, they moved between stations of 1. making cheek cell slides to look at under transmission scopes, 2. doing the coding puzzle, 3. looking at their DNA in the tube and other random stuff with magnifiers and dissecting scopes.

Grades taught
Gr K
Gr 1
Gr 2
Gr 3
Gr 4
Gr 5
Gr 6
Gr 7