Answered

Connect with a global community of knowledgeable individuals on IDNLearn.com. Discover the reliable solutions you need with help from our comprehensive and accurate Q&A platform.

A wave is sent back and forth along a rope 4 m long with a mass of 0.6 kg by exerting a force a force of 30 N. Calculate the linear mass density of the rope (in kg/m).

Sagot :

Onyebuchinnajiidn

The linear mass density of the rope in the given motion of the wave is 0.15 kg/m.

Linear mass density of the rope

The linear mass density of the rope in the given motion of the wave is determined by dividing the mass of the rope with the length of the entire rope.

The linear mass density of the rope is calculated as follows;

μ = m/L

μ = 0.6 kg / 4 m

μ = 0.15 kg/m

Thus, the linear mass density of the rope in the given motion of the wave is 0.15 kg/m.

Learn more about linear mass density here: https://brainly.com/question/14463946

Your presence in our community is highly appreciated. Keep sharing your insights and solutions. Together, we can build a rich and valuable knowledge resource for everyone. IDNLearn.com is committed to providing accurate answers. Thanks for stopping by, and see you next time for more solutions.