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 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 mini launcher to measure the variables that affect the two-dimensional motion of a projectile launched horizontally, and then use those variables to accurately predict and test the projectile's horizontal...
Students use the Smart Cart force sensor and tension protractors to demonstrate that the sum of the forces acting on an object in static translational equilibrium is equal to zero, and the sum of the torques acting on an object...
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...