QUESTION 4 How is correlational research different than experimental research? C
ID: 3451597 • Letter: Q
Question
QUESTION 4 How is correlational research different than experimental research? Correlational research describes variables through observation without directly manipulating with them, while experimental CExperimental research identifies the relationship between variables without directly manipulating with them, while C Cotrelational research identifies the relationship between variables without directly manipulating with them, vw GCorrelational research identifies the relationship between variables through manipulation of participants, while experimental research involves manipulation of variables and identifies the stimulus-and-response relationship between variables correlational research involves manipulation of variables and identifies the cause-and-effect relationship between variables. experimental research involves manipulation of variables and identifies the cause-and-effect relationship between variables research involves observation of partcipan ts and identifies the strength-and-weakness relationship between variables. QUESTION 5 How do neurons transmit QUESTION 5 How do neurons transmit information? C The dendrites receive information and transmit it toward the cell body. From there, the information travels down the entire length of the axon via a brief chemical charge, that is, stimulus potential When the stimulus potential reaches the terminal buttons, it triggers re lease of neurotransmitters into the blood stream Neurotransmitters flow through through the blood circulation in an atterapt to enter the peripheral nervous system. Neurotransmitters that are not able peripheral nervous system will return to the sending neuron or will be broken down by enzymes C The dendrites and cell body receive information and transmit it toward the axon. From there, the information travels down the entire length of the axon via a brief electrical charge, buttons, to enter the receiving Neurotransmitters or will be broken down by enzymes. that is, action potential When the action potential reaches the terminal the synaptic gap in an attempt it triggers release of neurotransmitters into the synapse Neurotransmitters flow across neuron. Neurotransmitters that are not able to enter the receiving neuron will return to G The dendrites and cell body receive information and transmat it toward the axon. From there, the information travels back to potential When the resting potential reaches the dendrites, it triggers the dendrites via a brief electrical charge, that is, resting release of hormones into the synapse. Hormones flow across the Hormones that are not able to enter the receiving neuron will return to the by enzymes synaptic gap in an attempt to enter the receiving neuron. The cell body recesves information and transmits toward the dendrites From there, the in ormabon travels down the entire length of the dendrite via a brief electrical charge, that is, resting potential. The resting potential reaches the terminal buttions triggers release of neurotransmitters into the synapse Neurotransmitters stay in the synaptic gap in an attempt to form new neurons. Neurotransmitters that are not able to form the new neurons will return to the sending neuron or will be broken down by enzymes PhotoExplanation / Answer
1) correlational research identifies the relationship between two variables without directly manipulating with them while experimental research involves manipulation of variables and identifies the cause-and-effect relationship between variables.
2) The dendrites and the cell body receive information and transmit it toward the axon.From there the information travels down the entire length of the axon via brief chemical charge,that is action potential.When the action potential reaches the terminal buttons, it triggers release of neurotransmitters into the synapse. Neurotransmitters flpw across the synaptic gap in an attempt to enter the receiving neuron.Neurotransmitters that are not able to enter the receiving neuron will return to the sending neuron or will be broken down by enzymes.