Answer:
D) Movement along the demand curve for oranges and a shift in the demand curve for apples
Explanation:
From the question, there was an increase in the price of oranges due to the destruction of a large number of orange crops by the hurricane. This change in price of oranges resulted to an increase in demand for apples. Therefore, this event has resulted to a movement along the demand curve for oranges and a shift in the demand curve for apples. The movement along the demand curve for oranges occurred because the price of oranges sold changed and the quantity demanded changed also. This is in line with the original demand relationship. In other words, a movement usually occurs when there is a change in the quantity demanded of a particular good as a result of a change in its price, and vice versa.
The shift in the demand curve for apples is as a result of a fall in the demand for oranges and an increase in the demand for apple therefore the suppliers tend to supply more of apples in the market.
Answer:
The correct answer is: Intrusion detection software.
Explanation:
Intrusion Detection Software or IDS are vital for companies moreover for entities with web-based operations. IDS are specially programmed to detect different types of attacks in the attempt of breaking into the firm's security system and data. There are four (4) types of IDS: <em>Network intrusion detection system (NIDS), Host-based intrusion detection system (HIDS), Perimeter Intrusion Detection System (PIDS), </em>and<em> VM based Intrusion Detection System (VMIDS).</em>
Answer: The change in molarity of blood is 0.0187 mol/L
Explanation:
The equation for molarity is given as:
M = m/V
where M is molarity (mol/L)
m = number of moles of solute
V = volume of solvent (Liters)
First step: Determine the number of moles in a specific mass
32g sugar (sucrose: C12H22O11) is dissolved in a 5L of blood.
In order to get the number of moles in a specific mass, divide the number of grams per mole into the size of the sample i.e 32g/(342.30 g/mol) = 0.0935 mol
Second step: Determine the change in molarity of blood sugar.
M = m/V
M = 0.0935 mol /5 L
M = 0.0187 mol/L