For a person born on or after January 1, 1988, to operate a vessel of 10 horsepower or greater on Florida waters, the Florida law requirements follow.
<h3>What are the Florida law requirements?</h3>
Florida law requires a person born on or after January 1, 1988, to operate a vessel powered by a motor of 10 horsepower or greater on Florida waters to meet the following:
- Successful completion of an approved boating safety course.
- Possession of a Boating Safety Education Identification Card issued by the FWC.
- Thus, a legal requirement for a person born on or after January 1, 1988, to operate a vessel powered by a motor of 10 horsepower or greater on Florida waters is possession of a Boating Safety Education Identification Card issued by the Florida Fish and Wildlife Conservation Commission (FWC) after the successful completion of an approved boating safety course.
Learn more about the Florida Fish and Wildlife Conservation Commission at
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Answer:
The correct answer is d. DNA polymorphism and disease gene are linked.
Explanation:
DNA polymorphism helps to study the difference in nucleotide sequence of one DNA in comparison to the standard one.
DNA polymorphism is an important tool to analyze the disease that is caused due an alteration of gene sequence leading to genetic mutation.
Now the altered gene sequence is compared with the normally functioning gene to draw a statistical relationship between altered gene sequence that causes disease with peviously discovered DNA polymorphism.
Answer:
The amount of sunlight that reaches them.
Explanation:
N/A
Some archaea are lithotrophs and obtain energy from inorganic compounds such as sulfur. These archaea used electron transport chains to create ATP. Other archaea are phototrophs and obtain energy from sunlight. However, in these types of archaebacteria, photosynthesis does not occur.
Answer:
Proper sequence of events:
5. Sensory receptor detects change in the environment.
2. Afferent neuron graded potential reaches threshold and fires an action potential.
4. CNS reaches decision about response.
1. Efferent neuron graded potential reaches threshold and fires an action potential.
3. Target organ responds.
Explanation:
Sensorial information is received by the peripheral nervous system and processed by the central nervous system. There are three types of neurons involved in this transmission: sensory or efferent neurons, interneurons, and motor or efferent neurons. First <em>stimulus energy is received</em> by sensory receptors specialized in responding to <em>different stimuli</em>. Then it occurs the <em>transduction or conversion</em> of the stimulus energy (chemical, temperature, light, pressure, etc.) to action potential energy. The afferent neurons, located in dermis and epidermis, <em>receive information</em> from the sensory receptors, react to stimuli and <em>transmit impulses</em> to the central nervous system. This pathway is defined as the <u>ascending pathway</u>. Information is <em>processed</em> in the central nervous system by the <em>interneurons</em> which handle many sensory signals, evaluate them, compare them and use them for <em>decision making.</em> After that, an efferent neuron is stimulated to <em>carry signals</em> from the central nervous system to the <em>effectors' cells</em> of the target organ. The effector may be muscle or glandular tissue. This pathway is defined as the <u>descending pathway</u>. Finally, the target organ responds by contracting or hormone-releasing.
