The number of waves that pass through a fixed point in a given amount of time is referred to as the wave frequency. The hertz is the SI unit for wave frequency (Hz).

$f = v / w$

where,

$f = frequency\\v = speed \\w = wavelength$

Given,

$v = 4 m/s, w = 2 m$

$f = 4/2 \\f = 2 Hz\\$

The waves frequency is 2 Hz.

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5 0

1 year ago

A=vf-vi/t is the equation for calculating the acceleration of an object. write out the relationship shown in the equation using

Lelechka [254]

Basically it is the difference in velocity divided by the time it takes to make that change.

3 0

3 years ago

A block of mass m is compressed against a spring (spring constant kk) on a horizontal frictionless surface. The block is then re

Nimfa-mama [501]

Answer:

A) True, B) False, C) False and D) false

Explanation:

Let's solve the problem using the law of conservation of energy to know if the statements are true or false

Let's look for mechanical energy

Initial

Emo = Ke = ½ k Dx2

Final

Em1= ½ m v12

Emo = Em1

½ k Δx2 = ½ m v₁²

v₁² = k / m Δx²

v₁ = √ k/m Δx

Now let's calculate the speed when it falls

Vfy² = Voy² - 2gy

Vfy² = - 2gy

Vf² = v₁² + vfy²

A) True v₁ = A Δx

.B) False. As there is no rubbing the mechanical energy conserves

.C) False the velocity is proportional to the square root of the height

v2y = v2 √2

. D) false promotional compression speed

3 0

3 years ago