ATP
Adenosine triphosphate. Energy produced when phosphate breaks off. ATP=ADP+Phosphate+Energy.
Lactc acid pathway/anaerobic glycolysis
Anaerobic (no oxygen) way to make ATP. 2ATP and lactic acid will be produced from a glucose molecule in the cytoplasm.
Aerobic glycolysis
in the presense of oxygen glucose produce 38ATP, water, heat, and carbon dioxide.
glycolysis
Breakdown of glucose to make energy
Lipolysis
fat is used as energy in the mitochondria with oxygen present to make 150 ATP, water, heat, and carbon dioxide.
Mitochondria
powerhouse of a cell
Type 1a
One of the three muscle types, uses oxygen, slow to fatigue, slow twitch, endurance muscle. Has lots of mitochondria and myoglobin. Red colored
Type 2a
One of the three muscle types, fast twitch muscle fiber. It uses oxygen, slow to fatigue, but produces more power. Fast twitch. can be trained into type 1a/2b muscle
Type 2b
Fast twitch glycolytic muscle, one of the three muscle fibers. powerful, fatigues quickly, anaerobic. Produces lactic acid.
Size principle
Type 1a: small bundles, move slower, less power.
Type 2a: medium bundles, move faster than 1a, more power than 1a.
Type 2b: large bundles, moves fastest, most power.
Myoglobin
a protein that stores oxygen in the muscle cells. Found in cardiac and skeletal muscle tissue.
Motor Neurons
Nerves that deliver signals from the central nervous system(CNS) to motor units.
Motor unit
In charge of muscle fibers. When a motor unit is activated, all of its fibers contract
All or None principle
A motor unit engages all of its muscle fibers at once or none at all.
Creatine
a chemical that recharges phosphate in the ATP cycle.
Glucose
A sugar that comes from carbohydrates like potatoes wheat and flour. It is used in lactic acid system(anaerobic glycolysis) and aerobic glycolysis to produce ATP
ATP cycle
ATP drops a phosphate to release energy becoming ADP, the phosphate then is re-energized by creatine to rejoin ADP making ATP
Hypertrophy
Muscle fibers are damaged and grow back bigger with protein causing an increase in size in the muscle and motor units.
Atrophy
Muscle fibers are reabsorbed due to lack of use causing a size reduction in muscle and motor unit.
Isometric Contraction
muscle contracts but does not change the length. (plank, wall sit)
Isotonic Contraction
Muscle moves while contracting
Concentric Contraction
muscle gets shorter while contracting (quadricep in squat, bicep in bicep curl)
Eccentric Contraction
Muscles extend while contracting (hamstring in squat, tricep in bicep curl)
Isokenetic Contraction
Muscle keeps the same tension while moving
Agonist/Prime mover
The main muscle that contracts to bring movement (bicep in bicep curl)
antagonist
The opposite muscle that relaxes as the agonist contracts (tricep in bicep curl)
Reciprocal Inhibition
A reflex process telling antagonist to relax when the agonist contracts.
Insertion
where the muscle attaches to the bone being moved
Origion
the end of muscle attached to a fixed bone
Synergist
A muscle whose contraction helps an agonist (brachialis and brachioradialis in bicep curl)
Fixator
a muscle that stabilizes movement at a joint
Skeletal muscle
attached to a bone, voluntary, will fatigue, and striated muscle.
Smooth muscle
Line the walls of blood vessels and hollow organs. Involuntary, does not fatigue, moves food and helps blood. not striated.
Cardiac muscle
heart muscle, involuntary, striated, does not fatigue, movement of blood.
skeletal movement
One of the functions of muscles. Skeletal muscles contract to exert force on tendons that pull bones causing joint movement.
Substance movement
One of the functions of muscles. move substances for example food (smooth) and blood (cardiac) within the body
stability
One of the functions of muscles. skeletal muscles help stabilize and maintain posture
Thermoregulation
One of the functions of muscle. Regulating temperature by shivering producing heat) and sweating (releasing heat)
Contractility
One of the properties of muscle tissue. the ability of muscles to contract and generate force. When one is contracted, the opposing extends.
Elasticity
One of the properties of muscle tissue. the ability to return to its original resting length after the stretch is removed.
Extensibility
One of the properties of muscle tissue. the ability of muscle to be stretched beyond its normal resting length.
Calcium
a mineral that is key for muscle contraction (Ca++)
Tropomyosin
A protein that wraps around the actin filament
Troponin
A protein that attracts calcium and forces tropomyosin to rotate.
Myosin
The larger filament in the sarcomere that attaches to actin
Action Potential
The electric signal sent by the Central Nervous System to the motor units
synapse
the gap between the motor neuron and the fibers at the neuromuscular junction
Acetylcholine
an organic compound that acts as a neurotransmitter, changing the electric signal to a chemical signal
sodium
a mineral that crosses the synapse to release calcium into the sarcomere
depolarisation
changing polarity of the synapse to allow mineral to cross.
sarcomere
a unit of a myofibril where the contraction takes place
myofibril
made up of sections of sarcomeres that have actin and myosin in them. Lots of them make a fiber
cross bridge
when a myosin head connects to the actin filament
Power stroke
an action powered by ATP where myosin heads pulls the actin towards each other.
motor end plate/ neuromuscular junction
where the motor unit meets the muscle fiber
sarcoplasmic reticulum
an organelle that releases calcium
binding sites
Spots on the actin that myosin heads can attach to