What is the difference between a seismogram and a seismograph?

What is the difference between a seismograph and a seismogram? Seismographs are instruments located at or near the earth's surface that record seismic waves. A seismogram is a tracing of the movement of the earthquake and is created by a seismograph.

What is the difference between a seismograph and a seismogram Brainly?

A. A seismograph is the written record of earthquake activity, while a seismogram is the instrument that detects earthquakes.

How does a seismograph produce a seismogram?

A large permanent magnet is used for the mass, and the outer case contains several coils of fine wire. Movements of the magnet relative to the casing generate small electrical signals in the wire that can be sent to a computer or recorded on paper to create a seismogram.

What is the importance of seismogram?

A seismometer is the internal part of the seismograph, which may be a pendulum or a mass mounted on a spring; however, it is often used synonymously with "seismograph". Seismographs are instruments used to record the movement of the earth during an earthquake.

What is the difference between a seismogram and a seistograph?

A seismogram is a visual record created by a seismograph. A seismograph is a piece of equipment that records earthquake movements. These two things go hand in hand and are crucial to the study of earthquakes. Without a seismograph, there would be no seismogram.

What is the difference between a seismograph and a pendulum?

How do they work? A seismometer is the internal part of the seismograph, which may be a pendulum or a mass mounted on a spring; however, it is often used synonymously with "seismograph". Seismographs are instruments used to record the movement of the earth during an earthquake.

There are two types of body waves: P waves (primary waves) and S waves (secondary waves). Scientists study earthquakes using an instrument called a ______seismograph_. When seismic waves reach the seismograph, a graphic record or ____seismogram_ is produced.

Earthquakes are recorded by a seismographic network. Each seismic station in the network measures the movement of the ground at that location. The release of one block of rock over another in an earthquake releases energy that causes the ground to vibrate. That vibration pushes the adjacent piece of soil and causes it to vibrate, and thus the energy…