3B SCIENTIFIC PHYSICS U8405680 Manual De Instrucciones página 10

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7. Sample Experiments
To
make
time
measurements
instruments are recommended:
1 Mechanical stopwatch
or
1 Laser reflection sensor
and
1 Digital counter (230 V, 50/60 Hz)
or
1 Digital counter (115 V, 50/60 Hz)
7.1 Uniformly accelerated rotation
7.1.1 Making a graph of rotation angle versus time
Recommended parameters:
Accelerating mass m
= 2 g
M
Multiple pulley radius r
Additional weight m
= 25 g, distance r
J
Rotation angles ϕ = 10°, 40°, 90°, 160°, 250°
Slide the two additional weights onto the
transverse beam at the same distance from the
axis of rotation.
Attach a thread to the metal peg on the rotating
disc and wind about 5-6 turns around a groove of
the multiple pulley.
Run the other end of the thread over the pulley
and tie one of the S-shaped hooks firmly onto the
end.
Position the system so that the S-shaped hook
hangs over an edge of the work-bench.
Turn the rotating disc to the desired angle
position and restrain it with the pointer.
Switch on the compressor.
Press the lever down to start the rotation, and
simultaneously start the stopwatch for the time
measurement.
When the zero mark passes the position of the
pointer, stop the time measurement, read the
time, and write it down.
Determine the times for different angles of
rotation and plot a t -
For the parameters recommended above, the times
are as follows:
10°
40°
2 s
4 s
7.2 Angular acceleration as a function of torque
7.2.1 Angular acceleration with different accelerating
masses
Recommended parameters:
ϕ
Angle of rotation
= 90°
the
following
U40801
U8533380
U8533341-230
U8533341-115
= 10 mm
M
= 170 mm
J
ϕ
diagram.
90°
160°
6 s
8
Additional weight m
Multiple pulley radius r
Accelerating masses m
Set up the experiment as described under 6.1.
Determine the times for the same angle of
rotation with different accelerator masses m
calculate the corresponding angular accelerations
α
.
Display
acceleration
diagram.
7.2.2 Angular acceleration with different multiple
pulley radius
Recommended parameters:
Angle of rotation
Additional weight m
Accelerating mass m
Multiple pulley radii r
Set up the experiment as described under 6.1.
Determine the times for the same angle of
rotation with differing pulley radii r
calculate the corresponding angular accelerations
α
.
Display the dependence of the angular
acceleration
pulley r
7.3 Angular acceleration as a function of the
moment of inertia
7.3.1 Moment of inertia as a function of the additional
weight
Recommended parameters:
Angle of rotation
Accelerating mass m
Multiple pulley radius r
Distance r
= 210 mm
J
Additional weights m
Set up the experiment as described under 6.1.
Determine the times for the same angle of
rotation with different additional masses m
the
same
250°
corresponding moments of inertia J using
Equations 4, 5 and 1.
10 s
Display the dependence of the moment of inertia
J on the additional mass m
7.3.2 Moment of inertia as a function of the distance
of the additional masses from the axis of rotation
Recommended parameters:
angle of rotation
accelerator mass m
4
= 50 g, distance r
J
= 10 mm
M
= 1 g, 2 g, 3 g, 4 g
M
the
dependence
α
on the accelerator mass in an
ϕ
= 90°
= 50 g, distance r
J
= 2 g
M
= 5 mm, 10 mm, 15 mm
M
α
on the radius of the multiple
α
in an r
-
diagram.
M
M
ϕ
= 90°
= 2 g
M
= 10 mm
M
= 0 g, 12.5 g, 25 g, 50 g
J
distance
r
,
and
J
in an m
J
ϕ
= 90°
= 2 g
M
= 210 mm
J
and
M
of
the
angular
α
-
m
M
= 210 mm
J
and
M
and
J
calculate
the
- J diagram.
J

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