Ask a New Question
Menu

Two different rivers have drops that are the same height. In river A, this drop of the river is a waterfall. In river B, this drop has the generator for a hydroelectric dam. In what way does the energy of the water differ between the drops in the two rivers?(1 point)

Responses

The kinetic energy of the water would be greater at the bottom of the drop in the waterfall river A than at the hydroelectric dam in river B.
The kinetic energy of the water would be greater at the bottom of the drop in the waterfall river A than at the hydroelectric dam in river B.

The kinetic energy of the water would be less at the bottom of the drop in the waterfall river A than at the hydroelectric dam river B.
The kinetic energy of the water would be less at the bottom of the drop in the waterfall river A than at the hydroelectric dam river B.

The potential energy of the water would be greater at the top of the drop in the waterfall river A than at the hydroelectric dam in river B.
The potential energy of the water would be greater at the top of the drop in the waterfall river A than at the hydroelectric dam in river B.

The potential energy of the water would be less at the top of the drop in the waterfall river A than at the hydroelectric dam in river B.

6 answers

The potential energy of the water would be greater at the top of the drop in the waterfall river A than at the hydroelectric dam in river B.
The turbines can be seen inside this hydroelectric dam. Why are they located at that particular height?

(1 point)
Responses

There is a large drop, so the water will have a lot of potential energy to transfer to the turbine.
There is a large drop, so the water will have a lot of potential energy to transfer to the turbine.

There is a small drop, so the water will still have a lot of potential energy to transfer to the turbine.
There is a small drop, so the water will still have a lot of potential energy to transfer to the turbine.

There is a large drop, so the water will have a lot of kinetic energy to transfer to the turbine.
There is a large drop, so the water will have a lot of kinetic energy to transfer to the turbine.

There is a small drop, so the water will still have a lot of kinetic energy to transfer to the turbine.
There is a large drop, so the water will have a lot of potential energy to transfer to the turbine.
A team of engineers is working with a wind turbine. The team is working with a model and testing different angles for the blade of the wind turbine. What would the research question be for this team?(1 point)
Responses

Which angle converts the largest percentage of potential energy from the wind into potential energy of the turbine?
Which angle converts the largest percentage of potential energy from the wind into potential energy of the turbine?

Which angle converts the largest percentage of kinetic energy from the wind into potential energy of the turbine?
Which angle converts the largest percentage of kinetic energy from the wind into potential energy of the turbine?

Which angle converts the largest percentage of kinetic energy from the wind into kinetic energy of the turbine?
Which angle converts the largest percentage of kinetic energy from the wind into kinetic energy of the turbine?

Which angle converts the largest percentage of potential energy from the wind into kinetic energy of the turbine?
Which angle converts the largest percentage of kinetic energy from the wind into potential energy of the turbine?
I got a 0/4