Transcript Body Works

Body Works
Functions of the skeleton
Functions of the skeleton:
• Support: The skeleton provides the framework to keep the human body in
the correct shape, by supporting many internal organs and the muscles of
the body.
• Protection: Important and delicate organs are protected by bone. Examples
include the skull protecting the brain and eyeballs, the ribs protecting the
heart and lungs, and the vertebral column protecting the spinal cord.
• Movement: Joints between the bones allow movement to be smooth,
without friction. Muscles can only exert a pulling force so they are often
arranged in pairs, one muscle producing the opposite movement of the
joint to the other muscle. The bones and joints are often arranged as levers
so a small contraction in the muscle produces a large movement in the
bones.
• Attachment: The bones of the skeleton provide an attachment surface for
muscles, tendons and ligaments. Without these attachments, the
movement referred to above would not occur.
• Blood cell production: blood cells are produced in the red bone marrow
inside the larger bones of the body………….
See cloze task (weebly)
Bones
Bones of the
Skeleton
Starter
(finish by 5 min into the lesson)
• Using Google, search for: skeleton klb java applet
(click run if prompted)
• Do the task,
repeat….take a screen
shot of your best time
(fruit burst for fastest)
Entry Starters…
• Bone names onto skeleton
• (do the plant flower one….!)
• !! Paper or digital name bones and then klb
(coz it is missing phalanges, sacrum, coccyx)
Naming the Bones
• Using Google, search for: skeleton klb. Click on
the first hit returned:
http://www.klbict.co.uk/interactive/science/skeleto
n.htm
• Complete the task
• Download the file “name those bones” from the
questions tab of my weebly. Type in your
answers, substitute cranium for skull
• On the same website try the 'label dragging'
version of the exercise - WHO CAN GET THE BEST
TIME???!
Discuss
• What are the differences between male and
female skeletons?
• What are the differences between child and
adult skeletons?
Skeletal Differences
• What are the differences between male and female
skeletons?
– Female pelvis is wider to: _____________________
– Female wrists and jaw bones smaller.
– Male bones bigger and heavier
• What are the differences between child and adult
skeletons?
– Baby has >300 bones, adult 206
– Movable skull plates in baby fuse together.
What is the purpose of this movement?
– Growth plates, areas behind end of long bones where
bone material is added (disappear when fully grown)
– Teeth, born with none, start to erupt from 3 months, 20
baby teeth (all replaced with 32 permanent teeth)
Joints
A Synovial Joint – Simple Detail
A Synovial Joint – Yr10 Detail
Ridiculous detail
(middle part of bone = diaphysis)
Functions of the
Parts of a Synovial Joint
Tendons vs Ligaments
Tendons vs Ligaments
Muscles
What is the strongest muscle in the body?
- Copy the heading
- Talk with the guy(s) beside you, decide on a
muscle, a reason and write that down.
Muscle Types
What is the strongest muscle?
• Difficult to say because strength depends
on:
– physiological strength (muscle size, cross
sectional area, available crossbridging,
responses to training),
– neurological strength (how strong or weak is
the signal that tells the muscle to contract),
and
– mechanical strength (muscle's force angle
on the lever, moment arm length, joint
capabilities).
What is the strongest muscle?
•
•
•
•
•
•
Some Examples
Jaw Muscle: Greatest force on external object. Record
bite strength: 4340N (434kg) for 2 seconds. Advantage:
works on a shorter lever than other muscles.
Quadriceps / Gluteus Maximus: Greatest force exerted
by muscle onto bone. Advantage: large cross section.
Uterus: Greatest force exerted per kg of muscle. During
childbirth exerts 100N to 400N per contraction (muscle
weight is only 1.1kg).
Eyeball muscles: 100 times stronger than they need to
be compare to weight of eyeball. They get regular
exercise during facial scanning and REM sleep.
Heart: Most work during lifetime. Output of only 1-5
watts (quadriceps = 100 watts) but works continuously
over a lifetime. 2.5 gigajoules of work done over 80
years
Tongue: NO! often in a list of strong muscles but for no
good reason. It is actually 16 muscles.
Muscles & Movement
Muscles and Movement
• Almost all the movement in our bodies is controlled by muscles.
• About half of our body weight is muscle. Muscles are made of lots of fibres
running side by side. Muscle cells are able to convert the chemical energy
contained in glucose using oxygen, into kinetic energy and heat
• Muscles are the “red meat” of the body as they contain copious amounts of blood
which transports the oxygen needed for aerobic respiration to occur. This is the
process of releasing energy using oxygen. If Oxygen is in short supply anaerobic
respiration occurs meaning muscles will function for a while but……. Eventually
lactic acid will be produced which will cause pain and eventual shut down of
muscular functions.
• Muscles are attached to our bones by tough cords called tendons. Tendons are
made of a protein called collagen.
• Ligaments keep the joints that the muscles articulate in close association (tight)
• Muscles cannot push only pull. When you arm bends your bicep muscle contracts
and your tricep relaxes. When you open your arm the opposite occurs these are
antagonistic muscles (muscles working in pairs that oppose each others motion)
Detailed muscle structure
• Actin,myosin…
Femur
Skin
•10 billion skin flakes are shed per day
• This is 2kg per year
•Most of household dust is skin flakes
• House mites feed on this – their excretions
exacerbate asthma
Skin Structure
Functions of Skin Parts
• Epidermis – waterproof protective layer
• Dermis – layer that cushions the body from stress and
strain (has nerves, glands, hair follicle, hair muscle) ,
• Pigment layer – produces melanin (a pigment that
protects from UV damage)
• Sweat Gland – makes sweat (evaporating sweat
keeps body cool)
• Oil Gland – makes oil (keeps hair, skin supple)
• Hairs – holds warmth (traps layer of warm air)
• Hair Muscle – makes hair stand up
• Fat layer – provides insulation, stores energy
• Nerves – heat & touch receptors
• Blood capillaries - provide nourishment and waste
removal
•
•
•
•
•
•
•
•
•
•
Functions of skin
Skin performs the following functions:
Protection: an anatomical barrier from pathogens and damage between the internal
and external environment in bodily defense; Langerhans cells in the skin are part of
the adaptive immune system.[4][3]
Sensation: contains a variety of nerve endings that react to heat and cold, touch,
pressure, vibration, and tissue injury; see somatosensory system and haptics.
Heat regulation: the skin contains a blood supply far greater than its requirements
which allows precise control of energy loss by radiation, convection and conduction.
Dilated blood vessels increase perfusion and heat loss while constricted vessels
greatly reduce cutaneous blood flow and conserve heat. Erector pili muscles are
significant in animals.
Control of evaporation: the skin provides a relatively dry and semi-impermeable
barrier to fluid loss.[4] Loss of this function contributes to the massive fluid loss in
burns.
Aesthetics and communication: others see our skin and can assess our mood,
physical state and attractiveness.
Storage and synthesis: acts as a storage center for lipids and water, as well as a
means of synthesis of vitamin D by action of UV on certain parts of the skin.
Excretion: sweat contains urea, however its concentration is 1/130th that of urine,
hence excretion by sweating is at most a secondary function to temperature
regulation.
Absorption: Oxygen, nitrogen and carbon dioxide can diffuse into the epidermis in
small amounts, some animals using their skin for their sole respiration organ. In
addition, medicine can be administered through the skin, by ointments or by means of
adhesive patch, such as the nicotine patch or iontophoresis. The skin is an important
site of transport in many other organisms.
Water resistance: The skin acts as a water resistant barrier so essential nutrients
aren't washed out of the body.
Hair Desensitisation
•
What to do:
–
–
–
–
•
Copy title
Get a pin or match or paperclip…
Find a hair on the back of your hand
Start timer, repeatedly touch the hair until you feel
the sensation stopping, record time. Repeat three
times, average. Record in a results table.
Questions
1. What happened?
2. Infer an advantage of this phenomenon
3. * Infer what might be happening in the skin
Proving that Skin Releases H20
•
What to do:
–
–
–
•
Copy title
Tape a small piece of dry cobalt chloride paper to
the back of your hand
Read: Cobalt chloride paper is blue when dry and
pink when wet
Questions:
1.
2.
3.
4.
What happened?
What does this prove?
Write the formula for cobalt chloride (Co2+ & Cl-)
*Infer – what is happening chemically?
Skin Grafting
What?
• Skin grafting is the transplantation of skin
Why?
• Treating extensive wounding
• Treating burns
• Treating skin loss (often after infections)
• Some surgery needs skin grafts for proper healing to occur
Types:
• Autologous: from yourself
• Isogeneic: from a twin
• Allogeneic: from the same species
• Xenogeneic: from different species
• Prosthetic: synthetic (metal, plastic, or ceramic)
Planning Task
Background: It is claimed that arm span is the
same length as a person’s height
Develop an experimental plan to test this.
Include the following:
Title
Aim
Hypothesis
Equipment
Variables (independent, dependent & controlled)
Method
Is your armspan your height?
Aim: To find out if armspan is the same length as a person’s
height
Hypothesis: I predict that armspan is roughly the same size
as height (I think that this might help the body’s balance)
Equipment: ruler, test subjects
Variables:
independent – the person being measured
dependent – height length and armspan length
controlled:
people to take shoes off
use same ruler each time
use same measurer each time
measure in same way (fingertip to
fingertip)
Excretion
This area is where
kidney nephrons are
located.
The nephrons carry
out the work of the
kidney (filtering out
waste and returning
useful material into
the blood)
Capsule: covers, protects
Cortex: wastes pass from
blood to nephrons
This area is where
kidney nephrons are
located.
The nephrons carry
out the work of the
kidney (filtering out
waste and returning
useful material into
the blood)
Medulla: ‘collecting
ducts’ from nephron
meet here, carrying urine
Renal Pelvis: passes
urine to ureter
Ureter: Takes urine to
bladder
Urine
• Composition Varies
• Daily (approx)
– Water 1.5 litres
– Urea 30g
– Salt 15g
– Small amounts of other substances
Genetic differences in sense of smell
identified through asparagus urine odor
Date:
September 28, 2010
Source:
Monell Chemical Senses Center
Summary:
Scientists have identified one of only a few
known genetic contributions to the sense of
smell. Most, but not all, people detect a
distinct sulfurous odor in their urine shortly
after eating asparagus. Sensory testing
demonstrated that some do not produce
the odor while others do not smell it. DNA
analyses revealed that the inability to smell
the odor was linked to genetic variation
within a family of olfactory receptors.
http://www.sciencedaily.com/releases/2010
/09/100928111231.htm
Urine Test Strips
Typically Test for:
• pH
• Glucose
• Ketones
• Protein
• Blood
• Bilirubin
• Nitrates
Water Balance
Water is essential for:
• Digesting food
• Sweat evaporation is cooling
• Dissolves substances for transport (eg
glucose)
• Temperature control
• Gas exchange
Water balance #2
Gains
Drinking
Eating
Chemical reactions (eg
respiration)
Losses
Sweat
Urine
Water vapour (exhaled
air)
Faeces (egestion)
Summary: The gains and losses must be balanced in order to
ensure the right levels of water in your body are maintained. The
kidney is the main organ that controls this balance.
Respiratory System
• Organ system that delivers O2 (via air) to the
blood and removes CO2
• NOT the same as (cellular) respiration which
is:
Glucose + O2  CO2 + H2O + energy (ATP)
• Gas Exchange: exchange of gases at the
lung surface (oxygen in, carbon dioxide out)
• Breathing: Movements of body which result
in air coming in (inhaling) and going out
(exhaling)
Parts of the Respiratory System
larynx
trachea
Bronchus (pl.
bronchii)
rib
bronchioles
Intercostal muscle
Alveolus (pl.
alveoli)
heart
Right lung
Left lung
diaphragm
Parts of the Respiratory System
Detail of Alveoli
Functions of the circulatory System