How To Sing Like Your Favorite Artist pt2
Hello, and welcome. I'm Ryan Higa, professional singer and vocalstiloligerizerist. You might remember me from How To Sing Like Your Favorite Artist part 1. Well this one's completely different. It's not as good. With that being said, welcome to How To Sing Like Your Favorite Artist part 2. Remember that scary movie quot;The Grudgequot;é Make the sound that the little girl in quot;The Grudgequot; makes.
(groaning) Just sing like you normally would sing. â™ª When I met you in the summer! â™ª .and add the little Grudge girl sound. â™ª When I met you in the summer. â™ª â™ª To my heartbeat sound. â™ª â™ª We fell in love. â™ª â™ª As the leaves turned brown. â™ª
grunting noises In order to sound like The Weekend, you have to literally make your face frozen to the point where it's numb and you can't feel it anymore. â™ª I can't feel my face when I'm with you. â™ª And once you get the frozen face down, all you have to do is act like you're sad and depressed.
â™ª I'm just tryna get you out the friend zone. â™ª And if people can't hear you, just use a megaphone. â™ª I only call you when it's half past. â™ª In order to sound like Fetty Wap, just sing as if you just got hit in the nuts. Or for girls to relate, just make the sound you make when you cut wind. You know, when you get the wind knocked out of you, you make the sound that's like stressed inhale and then just sing like that. Fetty Wap.
Auuugh! â™ª Baby won't you come my wayé â™ª grunting You know when you're yawning and you still try to talk; that sound it makesé yawning All you have to do is sing, while you yawn. yawning â™ª You and me we made a vow. â™ª
â™ª You say I'm crazy. â™ª â™ª And you don't think. â™ª laughing You know when you're a little kid where you're on the verge of crying but you do your best to try and suck it upé You know, the borderline where you're trying to fight back your tears, because you know once you start crying, you're not gonna be able to stop.
What is Sound Flame Challenge 2016 Vibrations and Vocal Chords
Hey guys, do you ever wonder what Sound is something you can hear with your ears. Our ears have the amazing ability to detect very tiny changes in the air pressure around our ears. When a high pressure region pushes
against your eardrum, your eardrum vibrates. This causes tiny little bones, and tiny little hair cells inside of your ear to vibrate. When these tiny hair cells vibrate, they send a bunch of signals through your auditory nerve to your brain. Your brain interprets these signals as sounds. Sounds are created when something vibrates,
or moves back and forth. If that something vibrates somewhere between most humans can hear the effects of that vibration as sound. When we use a speaker to make compression waves, we can actually feel the back and forth vibrations between the nodes. The speaker is also moving the air
Let's see what happens when we compress a gas. (gas noises) hee hee So, when we compress a gas, we have a region of high pressure. When we expand a gas, we have a region of low pressure. Gases flow from regions of high to low pressure. Sound is a pressure wave that is created by a vibrating source. To help you visualize sound waves, here is a Ruben's Flame Tube.
So what we have is a series of holes with a gas tube connected to a membrane that's pressed up against a speaker. 20 Hertz means that this speaker is actually vibrating 20 times per second. I can feel that. When that speaker vibrates, it's going to create regions of alternating high and low pressure to create a standing wave. Let's see what that does to the flames. (speaker humming ~500 Hz sound)
As we increase the sound frequency, we create more nodes. We have more regions of alternating high and low pressure regions inside of the tube. As we increase the frequency, we shorten the wavelength. The distance between one high pressure region and the next high pressure region is called the. Frequency is just a word that means how often something happens. In the case of sound waves, that something is a repeating change in pressure from a higher pressure to a lower pressure,