Minimum possible volume = Measured volume - Uncertainty = 250.0 mL - 1.0 mL = 249.0 mL.

The speed v of a wave is given by v = fλ. Therefore, v = 10 Hz * 2 m = 20 m/s.

Speed (v) = frequency (f) × wavelength (λ) = 10 Hz × 5 m = 50 m/s.

Wavelength λ is given by λ = v/f. Thus, λ = 340 m/s / 50 Hz = 6.8 m.

Speed v = f × λ = 50 Hz × 2 m = 100 m/s.

The speed of a wave is given by the formula v = fλ. Here, v = 50 Hz * 2 m = 100 m/s.

Speed v = f × λ = 50 Hz × 3 m = 150 m/s.

The speed of the wave can be calculated using the formula v = fλ. Here, v = 500 Hz * 0.5 m = 250 m/s.

Using the wave equation v = fλ, we find v = 500 Hz * 0.6 m = 300 m/s.

The speed of the wave can be calculated using the formula v = fλ. Thus, v = 500 Hz * 0.68 m = 340 m/s.

Speed (v) = frequency (f) × wavelength (λ) = 60 Hz × 1.5 m = 90 m/s.

Speed v = f × λ = 60 Hz × 3 m = 180 m/s.

The speed v of a wave is given by v = fλ. Thus, v = 60 * 3 = 180 m/s.

Wavelength λ can be calculated using the formula λ = v/f. Therefore, λ = 300 m/s / 150 Hz = 2 m.

Speed (v) = frequency (f) × wavelength (λ) = 300 Hz × 0.5 m = 150 m/s.

The speed v of a wave is given by v = fλ. Here, v = 600 Hz * 0.5 m = 300 m/s.

The maximum speed v_max is given by v_max = ωA, where ω = 2πf. Thus, ω = 2π(10) = 20π and v_max = 20π(0.5) = 10π ≈ 31.42 m/s.

The amplitude of the wave is the coefficient of the cosine function, which is 0.2 m.

Wave speed v is given by v = fλ. Thus, v = 10 Hz * 2 m = 20 m/s.

Speed (v) = Frequency (f) × Wavelength (λ) = 60 Hz × 0.5 m = 30 m/s.

Frequency f = v/λ = 50 m/s / 2 m = 25 Hz.

The amplitude of the wave is the coefficient of the cosine function, which is 0.05 m.

The amplitude of the wave is the coefficient in front of the sine function. Here, the amplitude is 0.05 m.

The speed of the wave v is given by v = fλ. Here, f = 10 Hz and λ = 2 m (from k = 2π/λ). Thus, v = 10 * 2 = 20 m/s.

The speed of the wave v is given by v = ω/k. Here, ω = 2π(2) = 4π rad/s and k = 2π(0.5) = π rad/m. Thus, v = (4π)/(π) = 4 m/s.

The amplitude is the coefficient of the sine function, which is 0.1 m.

'A' represents the amplitude of the wave, which is the maximum displacement from the equilibrium position.

'k' is the wave number, which is related to the wavelength of the wave.

When a wave pulse reflects off a fixed end, it inverts due to the boundary condition at the fixed end.

Speed (v) = frequency (f) × wavelength (λ) = 50 Hz × 2 m = 100 m/s.