Answer:B
Explanation:when fat are ingested,it has to be emulsified and broken down into monoglycerides,fatty acids.these molecules have a polar hydrophilic end and a non polar hydrophobic end .the fatty acid and monoglycerides that enter the cells of the mucosa are formed back into large tryglycerides molecules ,which then forms chylomicros, which are water soluble.they then pass into the lacteal vessels from where there are Transported to meet the body's needs
Answer:
Below:
Explanation:
Your Answer is "Phagocytosis".
Hope it helps...
It's LoyalGirl... ◕‿◕
Answer:
Generation of an action potential in the neuron.
Stimulation of Ca2+ entry into the neuron
Release of acetylcholine into the synapse
Depolarization of the muscle fiber membrane
Explanation:
The following events takes place in the vertebrate neuromuscular junction
a) Nerve Action Potential - Action potential reaches the axon terminal
b) Entry of calcium ion - The calcium ion reaches the axon terminal and enter into the presynaptic terminus after which the Synaptic vesicles fuse with the membrane of axon terminal
c) Releasing of Arch Quanta - Acetylcholine is released into synaptic cleft which then binds to the receptor sites on motor end plate
d) The Na+/K+ channels opens and Motor end plate becomes depolarized.
Answer:
Photosynthesis is an endergonic process because it needs the participation of the sun's radiant energy to start the chain of reactions that lead to the formation of the organic compounds stored in the body.
The overall reaction of photosynthesis is:
(CH2O) is an abbreviated way of representing starch or other carbohydrates by an empirical formula. Starch is the product of the most abundant photosynthesis. Photosynthesis is affected by different environmental factors, such as light intensity and quality, air humidity, temperature, availability of water, mineral nutrients and carbon dioxide. The photosynthesis of a single sheet is based on more than fifty individual reactions, each dependent on environmental variables (Cogua, 2011).
On the ability of the specified plants to compensate for environmental effects, it depends on their performance and survival in a given environment. The rate of photosynthesis may vary in the next variable variations of adaptive responses to changing levels of CO2, including from direct responses to CO2 itself to indirect responses due to changes in temperature and water regime that may affect the future ( Cogua, 2011).
The cellular organelles where photosynthesis occurs are chloroplasts. Their location is illustrated in Figure 1.1 the size and shape of the chloroplasts varies; they originate from structures known as protoplastidia (young chloroplasts), dividing as the embryo develops. Chloroplasts are surrounded by a double set of controlling membranes of the outward and inward transit of the molecules. Internally they consist of a jelly-like material rich in enzymes called stroma. It is here that the reaction of conversion of carbon dioxide into carbohydrates occurs. Chloroplasts have laminar membranes and in the form of flattened closed sacs, such as vesicles, called thylakoids. The thylakoids form piles called grana, which are connected to each other by other thylakoids in a more elongated manner. In the thylakoidal membranes are chlorophylls and other pigments that participate in the absorption of light, enzymes for the transport of electrons and the coupling factor for the formation of ATP. The main pigments present in the thylakoid membranes are chlorophyll a and chlorophyll b. in turn there are other pigments called carotenes and xanthophylls (Salisbury and Ross, 1994).
