[REQ_ERR: 404] [KTrafficClient] Something is wrong. Enable debug mode to see the reason.
How does sound travel along a string telephone
The electrical energy travels over wires to another phone and is converted from electrical energy to sound waves again which can be heard by someone on the other end of the phone! The sound waves are carried to a thin metal disk inside the phone, called a diaphragm, and are converted into electrical energy. When you talk into the cup your voice sends sound waves inside the cup, vibrating the bottom of the cup. The . Nov 17, · A string telephone works very much like a landline phone. The signals travel along wires from the mouthpiece of one telephone to the. Instead, the vibrations caused by your voice are changed into electrical signals. The bottom of the cup passes. In this activity, your voice vibrates the air inside the cup, which are then transferred to the bottom of the cup. The bottom of the cup passes . Jun 14, In this activity, your voice vibrates the air inside the cup, which are then transferred to the bottom of the cup. In this activity, your voice vibrates the air inside the cup, which are then transferred to the bottom of the cup. The bottom of the cup passes the sound waves to the string, and so on to the other cup. String Telephone Explanation Sound waves are created when sounds make vibrations in the air. The bottom of the cup passes the sound waves to the string, and so on to the other cup. String Telephone Explanation Sound waves are created when sounds make vibrations in the air. In this activity, your voice vibrates the air inside the cup, which are then transferred to the bottom of the cup. The cup transmits sound through the air around the . The sound travels along the string as a longitudinal wave and eventually causes the bottom of the receiver cup to vibrate. When you make a string telephone, you talk into it causing the bottom of the cup to vibrate and that vibration travels along the string to the other cup. Keeping the string taut is key. These vibrations travel along the string and then vibrate the cup at the other end. The vibrations are converted to sound waves.