Microwave ovens operate at 2.4Ghz the same as WiFi. But WiFi has a second frequency at 5GHz and I don’t think that would be interfering with the microwave.
Every time the video says gigabytes per second they actually mean gigabits per second. That’s something they should know better if they are creating an informative video.
At 0:36 the example with WiFi speed 182 Mbps is misleading. This implies wifi can’t go faster. Not true. My own internet provider is 300 Mbps and I get 300 Mbps over both WiFi and Ethernet. So the very claim this video is making is not always true.
... uh ... Wifi speed is also reduced by encryption and decryption (WPA2/WPA3 and then HTTPS/TLS on top of that, or should I say inside that). I'm betting the 9.6GB throughput number is raw, unencrypted data transfer with no attenuation and virtually no retries. Which brings me to retries. Although you hint at it, signal attenuation results in dropped packets. This results in additional protocol-level negotiation and then the dropped packets are retried. 10MB of data can turn into 20MB in an environment with lots of interference.
So Ethernet is good on PC, its good to counter ping spikes, like bro PLDT wifi is worst
Microwave ovens operate at 2.4Ghz the same as WiFi. But WiFi has a second frequency at 5GHz and I don’t think that would be interfering with the microwave.
Every time the video says gigabytes per second they actually mean gigabits per second. That’s something they should know better if they are creating an informative video.
At 0:36 the example with WiFi speed 182 Mbps is misleading. This implies wifi can’t go faster. Not true. My own internet provider is 300 Mbps and I get 300 Mbps over both WiFi and Ethernet. So the very claim this video is making is not always true.
... uh ... Wifi speed is also reduced by encryption and decryption (WPA2/WPA3 and then HTTPS/TLS on top of that, or should I say inside that). I'm betting the 9.6GB throughput number is raw, unencrypted data transfer with no attenuation and virtually no retries. Which brings me to retries. Although you hint at it, signal attenuation results in dropped packets. This results in additional protocol-level negotiation and then the dropped packets are retried. 10MB of data can turn into 20MB in an environment with lots of interference.