To answer this, lets run through the code:
<span>ArrayList bulbs = new ArrayList(); //create a new empty list
bulbs.add(new Light()); //size of bulbs = 1
bulbs.remove(0); //remove item at index 0. size of bulbs = 0
bulbs.add(new Light()); // size of bulbs = 1
Light b = new Light();
bulbs.add(1, b); // size of bulbs = 2
bulbs.add(new Light()); //size of bulbs = 3
bulbs.remove(0); //remove bulb at index 0. Size of bulbs = 2
bulbs.add(new Light()); size of bulbs = 3
bulbs.remove(2); //remove bulb at index 2. size of bulbs = 2
bulbs.add(new Light()); //size of bulbs = 3
bulbs.add(1, new Light()); //inserted at position 1. size of bulbs = 4
The final answer. Size of bulbs = 4.</span>
Since analog waves are continuous, it would makes sense that increasing the sampling rate should make a representation more accurate since there is no discrete limit to how accurate a functional representation of such as waveform could theoretically be.
Answer:
The answer is True.
Explanation:
<em>A Virtual Private Network is a type of network that allows computers and other devices to communicate with each other using encrypted connection over vulnerable or insecure network like the internet or public connections. The reason why it is secured because it used protocols or rules which every data is encrypted during its travel on the network. (Example: Upon sending, it is wrapped in codes, and upon receiving of the packets of data, a code must be provided to be able to download it). This is how the security of VPN works. Normally, companies are implementing this type of network to prevent unauthorized access or users to get their information.</em>