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What tension must a rope with length 2.70 m and mass 0.110 kg be stretched for transverse waves of frequency 38.0 Hz to have a wavelength of 0.720 m?
Wiki User
∙ 14y ago
Nevermind I figured it out. :)
Wiki User
∙ 14y ago
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What happens to the speed of a wave on a string when the frequency is doubled?
I believe that the speed will remain constant, and the new wavelength will be half of the original wavelength. Speed = (frequency) x (wavelength). This depends on the method used to increase the frequency. If the tension on the string is increased while maintaining the same length (like tuning up a guitar string), then the speed will increase, rather than the wavelength.
How do you control frequency?
For a pendulum, or a child on a swing: Change the length of the pendulum or the swing-chains. For a guitar string: Change the tension (tune it), or the length (squeeze it into a fret). For an electronic oscillator: Change the piezo crystal, or change a capacitor or inductor for one of a different value.
What is a tension graph?
no idea
What is the purpose of tension rods?
Tension rods are mainly found in places such as the bathroom or the closet. Tension rods are useful for providing a place for something, like a curtain, to hang from without drilling holes into a wall.
What is the tension in a rope that is supporting a 4.2 kg bucket?
There are two forces acting on the bucket which are the Tension and the Weight. Tension is directed upward and Weight is directed downward. Since the bucket is either moving at constant velocity, or if its remaining still, the Tension would have to equal in magnitude to the weight. Weight = Fg = Mass(in kgs) times Gravity= 4.2 kg x 9.8 m/s^2=41.46 Newtons Tension would be equal to Fg, which means that Tension would also be 41.46 Newtons.
When you increase the tension on a piece of wire the speed of waves on it increase but the wavelength stays constant what happens to the frequency of the waves as the tension the wire is increased?
If the speed increased and the wavelngth stayed the same then the frequency would have to increase. Because Speed=Frequency*Wavelength Hope that helps
What happens to the speed of a wave on a string when the frequency is doubled?
I believe that the speed will remain constant, and the new wavelength will be half of the original wavelength. Speed = (frequency) x (wavelength). This depends on the method used to increase the frequency. If the tension on the string is increased while maintaining the same length (like tuning up a guitar string), then the speed will increase, rather than the wavelength.
A wave on a rope has wavelength of 2.0 Hz What is the speed of the wave?
The speed of the wave would depend on the tension, the length of the rope, and the mass per length unit.On the other hand, there is a general relation for waves: speed = wavelength x frequency. This doesn't help in this particular case - you need more data.By the way, Hz. is a unit of frequency. Wavelength would be measured in meters.The speed of the wave would depend on the tension, the length of the rope, and the mass per length unit.On the other hand, there is a general relation for waves: speed = wavelength x frequency. This doesn't help in this particular case - you need more data.By the way, Hz. is a unit of frequency. Wavelength would be measured in meters.The speed of the wave would depend on the tension, the length of the rope, and the mass per length unit.On the other hand, there is a general relation for waves: speed = wavelength x frequency. This doesn't help in this particular case - you need more data.By the way, Hz. is a unit of frequency. Wavelength would be measured in meters.The speed of the wave would depend on the tension, the length of the rope, and the mass per length unit.On the other hand, there is a general relation for waves: speed = wavelength x frequency. This doesn't help in this particular case - you need more data.By the way, Hz. is a unit of frequency. Wavelength would be measured in meters.
When an object is stretched it is said to be in?
tension.
When an object is being stretched it is said to be in?
tension; under a tensile stress ========================
Why does putting pressure on a string in a stringed instrument make a different sound?
"Pressure" is not what causes strings to produce sound. It's "tension" which does that. Adjusting the tuners either increases or decreases the tension, thus altering the audible pitch. Bending the strings also increases the tension. The sound is due to the vibration of the strings. Greater tension causes a shorter, higher frequency wavelength or amplitude which produces a higher pitch. Lesser tension causes a longer, lower frequency wavelength which produces a lower pitch. Depressing the strings onto the fingerboard effectively shortens the length of the string. The more a string is shortened, the shorter its vibrational wavelength and the higher its frequency will become. The location along the fingerboard at which the string is depressed serves the same function as does the nut when a open string is sounded.
When an object is being stretched it's said to be in?
tension.
What is the type of stress in in stretched rubber band?
The answer is Tension
What happens when a material is under tension?
it gets stretched
What occurs when materials of the earth crust are stretched cause them to?
tension
What is the resulting force called when matter is pulled or stretched?
Tension.
What effect does increasing the tension in a vibrating string have on the wavelength?
it will shorten it
