Login or Sign Up

Ask a New Question

A transverse wave is traveling with a speed of 500 m/s on a horizontal string. If the tension in the string is increased by a factor of 2, what is the speed of the wave?

sqrt2 times higher than before

500 x 1.414 = ____ m/s

Similar Questions

A transverse wave is traveling with a speed of 500 m/s on a horizontal string. If the tension in the string is increased by a

Top answer: To find the speed of the wave after increasing the tension in the string, we need to understand the Read more.
A transverse wave is traveling with a speed of 500 m/s on a horizontal string. If the tension in the string is increased by a

Top answer: Asked and answered already. See first link below Read more.
A guitar string 75.0cm in length is strung to play the note C at a frequency of 880Hz as it 3rd harmonic.a.) what is the length

Top answer: a) There are three half-waves on the string, so the wavelength on the string is 50 cm. b) Speed = Read more.
A string is under a tension of 700.0 N. A 1.5 m length of the string has a mass of 4.5 grams. What is the speed of a transverse

Top answer: velocity= sqrt (tension/linearmassdensity) One the last part, it am not certain that .50 equals Read more.
ii. For transverse waves on a string, is the wave speed the same as the speed of any part of the string? Explain the difference

Top answer: For transverse waves on a string, the wave speed is not the same as the speed of any part of the Read more.
A transverse wave traveling in a string takes 1.61 s to move 13.2 m. The mass of a 9.2 m piece of the string is 1.5 kg. What is

Top answer: To determine the tension in the string, we can use the formula for the speed of a transverse wave on Read more.
A transverse wave traveling in a string takes 1.40 s to move 13.2 m. The mass of a 8.50 m piece of the string is 1.60 kg. What

Top answer: To find the tension in the string, we can use the formula for the wave speed: Wave speed (v) = Read more.
The mass of a string is 8.40 10-3 kg, and it is stretched so the tension in it is 225 N. A transverse wave traveling on this

Top answer: To find the length of the string, we can use the formula for the speed of a wave on a string: v = Read more.
The mass of a string is 6.8 x 10-3 kg, and it is stretched so that the tension in it is 210 N. A transverse wave traveling on

Top answer: v = sqrt(T/m₀) =sqrt(TL/m) λ =v/f => v= λf (λf)²=TL/m L=(λf)²m/T Read more.
The mass of a string is 2.5 × 10-3 kg, and it is stretched so that the tension in it is 250 N. A transverse wave traveling on

Top answer: Mass per unit length m₀ = m/L, Velocity in the stretched string is v = sqrt(T/m₀) Read more.