YR2-CH5&6-LSN4

HAVE READY:
GOOGLE CLASSROOM
KERBOODLE PAGE 67-71
your homework FOR TODAY
1 / 27
suivant
Slide 1: Diapositive
BiologieMiddelbare schoolvwoLeerjaar 2

Cette leçon contient 27 diapositives, avec quiz interactifs et diapositives de texte.

time-iconLa durée de la leçon est: 60 min

Éléments de cette leçon

HAVE READY:
GOOGLE CLASSROOM
KERBOODLE PAGE 67-71
your homework FOR TODAY

Slide 1 - Diapositive

TODAY:
- discuss difficult hw assignments
- theory on circulation
- work on in class assignments.

Slide 2 - Diapositive

CLASS ASSIGNMENTS LSN 3:
-  Complete the exercises on tb pages 78 and 79

timer
10:00
ANSWER SHEET IS ON CLASSROOM, CHECK & DISCUSS THE ANSWERS

Slide 3 - Diapositive

ANY QUESTIONS ABOUT THE HW ASSIGNMENTS:

Slide 4 - Question ouverte

Lesson 4: Circulation
- I understand why a circulatory system is required in multicellular organisms
- I understand the relationship between how the heart is built how that functions to optimize circulation
- I understand and recognize the differences in types of blood vessels

Slide 5 - Diapositive

double circulatory system 
- The heart is a double pump 
 - Left side pumps oxygenated
    blood towards your body.
- Oxygenated blood is depicted in RED
- Right side pumps deoxygenated blood                 towards your lungs 
- Deoxygenated blood is depicted in BLUE
- LEFT = RIGHT & RIGHT = LEFT

Slide 6 - Diapositive

The heart
- Double pump
- Pumping = putting high pressure on blood so that it starts moving
- 2 Atria (sing: Atrium)
- Atria: support pumps 
- 2 Ventricles
- Ventricles: main pumps
- One direction blood flow
- Valves prevent back flow

Slide 7 - Diapositive

Blood flow
LEFT
pulmonary vein > left atrium > left ventricle > aorta

RIGHT
vena cava > right atrium > right ventricle > pulmonary artery

Slide 8 - Diapositive

Valves
- Valves allow bloodflow in one direction ONLY!

If pressure on the otherside increases, valves close so backflow is prevented

Slide 9 - Diapositive

Heart cycle
1. atrial contraction
- artery valves closed
- heart valves open
> pushes blood to the ventricles

2. ventricular contraction
- artery valves open
- heart valves closed
> pushes blood to the major arteries

3. heart pause (both atria and ventricles are relaxed)
- all valves open
- relaxing atria and ventricles create suction
> allows the heart to refill from the vena cava

Slide 10 - Diapositive

From which chamber of the heart does blood leave to go to the lungs?
A
Right ventricle
B
Right atrium
C
Left ventricle

Slide 11 - Quiz

Which chamber produces the highest pressure in the blood?
A
Right atrium
B
Left atrium
C
Left ventricle

Slide 12 - Quiz

How is it possible that blood only flows one way?
Because:
A
of the blood pressure
B
blood cells know how to flow
C
there are valves, preventing back flow
D
of how the heart contracts

Slide 13 - Quiz

Aorta
pulmonary artery
pulmonary vein
vena cava
right atrium
right ventricle
left atrium
left ventricle
tricuspid valve
aortic  valve
mitral valve
pulmonary valve
septum
apex

Slide 14 - Question de remorquage

Heart itself needs blood too!
The heart cells require a lot of energy. A lot of cellular respiration is taking place
The heart requires a lot of oxygen and glucose
This is provided by the coronary arteries that run on the the outside of the heart.

Slide 15 - Diapositive

Blood vessels types
  • Arteries - carry blood away from the heart
  • Veins - Carry blood back to the heart
  • Capillaries - go to every cell in the body (oxygen and CO2 exchange)

Slide 16 - Diapositive

Arteries
  • Elastic walls which stretch to cope with high pressure of the blood
  • They contract and bounce back because of the blood pressure rising and falling with the heart cycle
  • Lie deeper within the body

Slide 17 - Diapositive

Veins
  • Are wider than arteries
  • Thinner walls because of lower blood pressure 
  • blood is squeezed along by your muscles 
  • backflow is prevented with valves

Slide 18 - Diapositive

Capillaries
  • Smallest blood vessels
  • Very thin walls 
  • Just one cell layer thick
  • Allows for optimal diffusion
  • Large surface area

Slide 19 - Diapositive

Wall
Pressure
Speed
Valves
Artery

Vein

Capillary

One cell thick
thick, elastic
thin
high
high
low
low
high to low
high to low
yes
no
no

Slide 20 - Question de remorquage

Which statement is true?
A
In general, the circulatory system looks like this: Heart -> veins -> capillaries -> arteries -> heart
B
In general, the circulatory system looks like this: Heart -> arteries -> capillaries -> veins -> heart

Slide 21 - Quiz

Which blood vessel has a wall which is only 1 cell layer thick?
A
All of them
B
Arteries
C
Capillaries
D
Veins

Slide 22 - Quiz


A
1.artery 2. vein 3. capillary
B
1. capillary 2. artery 3. vein
C
1. vein 2. capillary 3 artery
D
all answers are wrong

Slide 23 - Quiz

Naming of the blood vessels
  • Arteries: organ it is going to + artery (for example pulmonary artery, liver artery) (exception: aorta)
  • Veins: organ it is coming from + vein, for (example pulmonary vein, liver vein) (exceptions: 
  • Capillaries: are not named!

Slide 24 - Diapositive

Blood route question: an oxygen molecule flows from the capillaries in the lung to the capillaries in the kidney. 

Drag the major blood vessels and parts of the heart through which this oxygen molecule passes in the right order. BE AWARE! Not all blood vessels and parts of the heart are part of this route!
1
2
3
4
5
pulmonary artery
left atrium
right atrium
right ventricle
aorta
pulmonary vein
renal artery
renal vein
left ventricle
superior vena cava

Slide 25 - Question de remorquage

Lesson 4: Circulation
- I understand why a circulatory system is required in multicellular organisms
- I understand the relationship between how the heart is built how that functions to optimize circulation
- I understand and recognize the differences in types of blood vessels

Slide 26 - Diapositive

WHAT TO DO NOW:
- WORK ON THE IN CLASS ASSIGNMENTS FOR LESSON 4
- COMPLETE THESE FIRST
- STUDY FOR YOUR TESTWEEK!!

Slide 27 - Diapositive