3B Scientific Acceleration Sensor, ±5g User Manual

3B Scientific GmbH • Rudorffweg 8 • 21031 Hamburg • Germany •

www.3bscientific.com

Subject to technical amendments

© Copyright 2007 3B Scientific GmbH

4. Technical data

Measurement range:

0 to ±50 m/s²

Sensor type:

Capacitive semiconduc-
tor sensor

Sensitivity: Typically

400mV/g

Non-linearity:

No more than ±1% of
the full measurement
range.

Resolution:

0.03

m/s²

Band width:

typically 50 Hz

Drill hole for sensor
attachment:

3 mm diam. max.

5. Operation

•

Place the sensor box alongside the experiment
and attach the acceleration sensor (small black
box) to the mass to be investigated (target). Use
the supplied Velcro strip or a clamp for this
purpose.

•

Read the value of the acceleration from the
display on the 3B NETlog

TM

unit.

6. Applications

Demonstration track and air track experiments:

Downward acceleration

Elastic and non-elastic impact

Oscillating spring-mass system

High-resolution measurement of objects’ inclina-
tion

Pendulum oscillations

Jumping experiments; “bungee jumping”

7. Sample experiment

Acceleration measurement in a damped oscillat-
ing spring-mass system

Required equipment:

1 3B NETlog

TM

interface

U11300

1 3B NETlab

TM

software

program

U11310

1 5-g accelerometer

U11363

1 Stand base

U13270

1 Stand rod, 750 mm length

U15003

1 Stand rod, 250 mm length

U15001

2

Universal

clamps

U13255

1 Coil spring 3 N/m

U15027

1 Weight 100 g, from

U30016

•

Set up the equipment for the experiment as in
Fig. 1.

•

Run the 3B NETlab

TM

software with the appro-

priate template for the experiment using the
5g accelerometer.

•

Attach the acceleration sensor to the weight
with a piece of Velcro.

•

Suspend the weight and acceleration sensor
from the eye at the bottom of the coil spring
and be careful not to hinder the oscillating
motion.

•

Drape the connecting lead for the acceleration
sensor over the universal clamp, as shown in
Fig. 1. This adds further to the damping.

•

Pull down the weight by hand to the level of
the stand base and release it.

•

Start recording the measurement data in 3B
NETlab

TM

(Fig. 2).

•

Analyse the recorded chart.

Fig. 1 Acceleration measurement for a damped oscilla-

tion of a mass on a spring

Fig. 2 Monitor display of the damped oscillation of a

mass on a spring in 3B NET

lab

TM (U11310)