Student is investigating the transfer of potential energy to kinetic energy. The student uses. A slingshot in a marble is shown in the diagram. Is that so distance, investigation or sound what will most likely be the result of this investigation the Marvel release from a distance to 5 cm will have the most potential energy in marvel release from a distance of 15 cm will have the most potential energy the Marvel release from a distance of 5 cm will have the least potential energy or the Marvel release from a distance to 15 cm will have the least potential energy.
The marble released from a distance of 15 cm will have the most potential energy.
The marble released from a distance of 15 cm will have the most potential energy.
To determine the outcome of this investigation, we need to understand the relationship between potential energy and the distance from which the marble is released from the slingshot.
Potential energy is the energy possessed by an object due to its position or state. In this case, the potential energy of the marble is directly related to the distance from which it is released. It is important to note that potential energy also depends on other factors such as the mass of the marble, gravitational force, etc., but for the purposes of this investigation, we will focus solely on the effect of distance.
According to the question, the student is investigating the transfer of potential energy to kinetic energy using a slingshot and a marble. Assuming that the slingshot is being pulled back a certain distance before releasing the marble, we can determine the potential energy based on this distance.
The general principle is that the greater the distance from which the marble is released, the greater potential energy it will have. Therefore, the marble released from a distance of 15 cm will have more potential energy compared to one released from a distance of 5 cm.
So, in answer to the question, the marble released from a distance of 15 cm will have the most potential energy, while the marble released from a distance of 5 cm will have the least potential energy.
To investigate and confirm this relationship, the student can perform multiple trials with different release distances (e.g., 5 cm, 10 cm, 15 cm) and measure the potential energy of the marble using appropriate methods such as calculating the gravitational potential energy formula (PE = mgh, where m represents the mass of the marble, g is the acceleration due to gravity, and h is the height or distance from which the marble is released).