One way the endocrine system helps maintain homoeostasis is by having hormones which are released. Some of the hormones include insulin and adrenocorticotropic hormone among others.
hormones
The endocrine system controls the body by means of chemical molecules called hormones.
I am currently studying this in Biology 3/4. The endocrine system is slower than the nervous system because hormones must travel through the circulatory system (bloodstream) to reach their target whereas the nervous system acts by using neurotransmitters (chemical messengers) which act impulsively (no delay) Crepusculum (:
None as all comunication in cells using transduction, endocrine system use hormone, nerve system uses nerve impulse which is not involve in transduction but at the synapse neurotransmitter is produced which involve in transduction. Noted that all senses such as the eye uses nerve system and endocrine system.
The endocrine system is responsible for producing enzymes. Hormones released by the endocrine glands stimulate the production of enzymes in various tissues and organs of the body. Enzymes play a crucial role in facilitating chemical reactions within the body, and their production is regulated by the endocrine system.
There is about three other systems that affect the excretory system. One is the Autonomic Nervous System, which sends hormones to the kidneys. Another is the Circulatory System. The Circulatory System moves the blood around the body. Some of this blood passes through the kidneys, which is cleaned. The stuff that gets cleaned out of the blood ends up in the bladder,which gets made into urine. The last system to my knowledge is the Endocrine System. Which messages the excretory system using hormones, that says that the blood is out of balance.
The endocrine system sends messages using hormones. It delivers messages from the nervous system to the excretory system. It tells the excretory system when the blood is out of balance.
Endocrine glands. This is the basis of your endocrine system which secretes hormones into the blood stream directly without using ducts.
It delivers messages from the nervous system to the excretory system, APE
The endocrine system controls the body by means of chemical molecules called hormones.
I am currently studying this in Biology 3/4. The endocrine system is slower than the nervous system because hormones must travel through the circulatory system (bloodstream) to reach their target whereas the nervous system acts by using neurotransmitters (chemical messengers) which act impulsively (no delay) Crepusculum (:
One interesting fact is that the endocrine system has no ducts. Therefore, the hormones it produces are released directly into the bloodstream. The blood then carries it to the various parts. Also, the endocrine system is responsible for producing 30 distinct hormones. All these hormones have very distinct jobs to do. The rush of adrenaline one gets when facing adventure or fear is the result of the adrenal glands production of epinephrine hormone, or adrenaline as we otherwise know it. We must be thankful to the pineal gland for our sweet sleep. It secretes melatonin which regulates our sleep. It is responsible for the production of insulin. The failure to produce insulin will result in diabetes. The endocrine is the secret behind your energy levels thanks to the thyroid glands. The thyroid glands also help in metabolism. The hypothalamus is the one that makes you feel hunger and thirst. It also helps in body temperature. It aids the immune system by helping the body build resistance to disease. The human behavior is also controlled by the endocrine system when it affects the nervous system. It is accountable for sexual characteristics and development. It is the key player in regulating menstrual cycle and ovulation in women. It even plays a role in pregnancy by stimulating contractions during delivery. In fact, the endocrine system has a hand in almost all functions of the human body.
None as all comunication in cells using transduction, endocrine system use hormone, nerve system uses nerve impulse which is not involve in transduction but at the synapse neurotransmitter is produced which involve in transduction. Noted that all senses such as the eye uses nerve system and endocrine system.
In physiology, the endocrine system is a system of glands, each of which secretes a type of hormone directly into the bloodstream to regulate the body. The endocrine system is in contrast to exocrine system, which secretes its chemicals using ducts. It derives from the Greek words endo (Greek ένδο) meaning inside, within, and crinis (Greek κρινής) for secrete. The endocrine system is an information signal system like the nervous system, yet its effects and mechanism are classifiably different. The endocrine systems effects are slow to initiate, and prolonged in their response, lasting for hours to weeks. The nervous system sends information very quickly, and responses are generally short lived. Hormones are substances (chemical mediators) released from endocrine tissue into the bloodstream where they travel to target tissue and generate a response. Hormones regulate various human functions, including Metabolism, growth and development, tissue function, and mood. The field of study dealing with the endocrine system and its disorders is endocrinology, a branch of internal medicine.Features of endocrine glands are, in general, their ductless nature, their vascularity, and usually the presence of intracellular vacuoles or granules storing their hormones. In contrast, exocrine glands, such as salivary glands, sweat glands, and glands within the gastrointestinal tract, tend to be much less vascular and have ducts or a hollow lumen.In addition to the specialised endocrine organs mentioned above, many other organs that are part of other body systems, such as the kidney, liver, heart and gonads, have secondary endocrine functions. For example the kidney secretes endocrine hormones such as erythropoietin and renin.The endocrine system is made up of a series of glands that produce chemicals called hormones. A number of glands that signal each other in sequence is usually referred to as an axis, for example, the hypothalamic-pituitary-adrenal axis.
The cerebellum is the part of the brain that controls and coordinates complex motor activities using signals from other parts of the brain and the spinal cord. It is located in the back of the head at the base of the brain.
Do you mean the endocrine system? Because if so; The function of the endocrine system is to control hormones using specialized tissues and cells called Glands. For example, the Parathyroid gland helps to control calcium levels in the body. The adrenal gland produces adrenaline during exciting moments, or 'Fight or Flight' moments.
The endocrine system is responsible for producing enzymes. Hormones released by the endocrine glands stimulate the production of enzymes in various tissues and organs of the body. Enzymes play a crucial role in facilitating chemical reactions within the body, and their production is regulated by the endocrine system.
The Abdominal cavity. The pancreas is both an Exocrine and Endocrine gland.As an exocrine gland it produces and secretes pancreatic juice, which digests all the components of food in the small intestine. As an endocrine gland, the pancreas secretes the hormones insulin and glucagon into the bloodstream. Completes the job of breaking down protein, carbohydrates, and fats using digestive juices of pancreas combined with juices from the intestines.Secretes hormones that affect the level of sugar in the blood.Produces chemicals that neutralize stomach acids that pass from the stomach into the small intestine by using substances in pancreatic juice.Contains Islets of Langerhans, which are tiny groups of specialized cells that are scattered throughout the organ.These cells secrete: Glucagon---raises the level of glucose (sugar) in the bloodInsulin---stimulates cells to use glucoseSomatostatin---may regulate the secretion of glucagons and insulin.This organ belongs to the digestive system and preform the above functions which is necessary for digestion to be completed.