This clamp with 6.5 cm grip width, accepts plain or threaded rods up to 1/2 inch or 1.25 cm.
See the Buying Guide for this item's required, recommended, and additional accessories.
This is an ideal table clamp for holding rods up to 1/2 inch or about 1.25 cm. The clamp can accept plain rods or threaded rods.
WARNING: CHOKING HAZARD!
Small parts. Not for children under 3 years.
|45 cm Stainless Steel Rod||ME-8736||$26|
|90 cm Stainless Steel Rod||ME-8738||$31|
|120 cm Stainless Steel Rod||ME-8741||$36|
|Stainless Steel Rod, 60 cm Threaded||ME-8977||$36|
|Stainless Steel Rod, 25 cm Threaded||ME-8988||$30|
Perform the following experiments and more with the Aluminum Table Clamp.
Visit PASCO's Experiment Library to view more activities.
Students use a Smart Cart and dynamics system to explore how the kinetic energy, gravitational potential energy, and total mechanical energy of a cart/earth system changes as the cart rolls down an inclined track.
Students use a photogate and pendulum to determine the physical properties of a simple pendulum that affect its period, and then use their data to support a mathematical model relating period to pendulum arm length.
Students use a rotary motion sensor to determine the mathematical relationship between torque, rotational inertia, and angular acceleration of a rotating object.
Students use a Smart Cart to determine the physical properties of a vertical mass and spring system that affect its period of oscillation, and then use their data to support a mathematical model relating period, mass, and spring...
Students use a 3-axis magnetic field sensor and the AC/DC electronics laboratory to determine how the strength of the magnetic field at the center of a current-carrying coil depends on the coil current and radius.
Students use a photogate and pulley system to determine the mathematical relationship between the acceleration of an Atwood’s machine, the difference between its two masses, and the sum of those two masses.