Showing 2081–2096 of 2574 results
PHY-FLU-025 MAGDEBURG HEMISPHERES, CAST IRON
SSI.PHY.FLU.025
To demonstrate Atmospheric Pressure. Consists of two metal hemi-spheres 4 inch (10cm) in diameter, each with a sturdy metal handle. One of the spheres has a stopcock to attach vacuum tubing 8 mm ID. Join the two hemi-spheres and connect to a hand pump or vacuum pump and evacuate the
PHY-FLU-026 MAGDEBURG HEMISPHERE BRASS
SSI.PHY.FLU.026
To demonstrate Atmospheric Pressure. Consists of two metal hemi-spheres 4 inch (10cm) in diameter, each with a sturdy metal handle. One of the spheres has a stopcock to attach vacuum tubing 8mm ID. Join the two hemi-spheres and connect to a hand pump or vacuum pump and evacuate the air
PHY-FLU-027 MAGDEBURG HEMISPHERES ALUMINUM
SSI.PHY.FLU.027
To demonstrate Atmospheric Pressure. Consists of two metal hemi-spheres 4 inch (10cm) in diameter, each with a sturdy metal handle. One of the spheres has a stopcock to attach vacuum tubing 8mm ID. Join the two hemi-spheres and connect to a hand pump or vacuum pump and evacuate the air
PHY-FLU-028 DISPLACEMENT VESSEL BOROSILICATE GLASS.
SSI.PHY.FLU.028
Made of borosilicate glass, with angled spout. SSI.PHY.FLU.28.1 250 ml SSI.PHY.FLU.28.2 500 ml
PHY-FLU-029 DISPLACEMENT VESSEL TIN SHEET
SSI.PHY.FLU.029
Seamless fabrication with flared top edge, Tin body and angled spout for convenient overflow and collection of liquids. SSI.PHY.FLU.29.1 100x50mm SSI.PHY.FLU.29.2 115x90mm SSI.PHY.FLU.29.3 225x125mm
PHY-FLU-030 DISPLACEMENT VESSEL COPPER
SSI.PHY.FLU.030
Seamless fabrication with flared top edge, complete nickel plated body and angled spout for convenient overflow and collection of liquids. SSI.PHY.FLU.30.1 100x50mm SSI.PHY.FLU.30.2 115x90mm SSI.PHY.FLU.30.3 225x125mm
PHY-FLU-031 DISPLACEMENT VESSEL ALUMINIUM
SSI.PHY.FLU.031
Seamless fabrication with flared top edge, Aluminum body and angled spout for convenient overflow and collection of liquids. SSI.PHY.FLU.31.1 100x50mm SSI.PHY.FLU.31.2 115x90mm SSI.PHY.FLU.31.3 225x125mm
PHY-FLU-032 DISPLACEMENT VESSEL(OVERFLOW CAN), PLASTIC
SSI.PHY.FLU.032
Comprises a plastic vessel with a spout. SSI.PHY.FLU.32.1 250ml SSI.PHY.FLU.32.2 500ml SSI.PHY.FLU.32.3 1000ml SSI.PHY.FLU.32.4 2000ml
PHY-FLU-033 SPECIFIC GRAVITY BOTTLE, BOROSILICATE GLASS
SSI.PHY.FLU.033
Made of borosilicate glass, spherical pattern, flat bottom with perforated stopper SSI.PHY.FLU.33.1 10ml SSI.PHY.FLU.33.2 25ml SSI.PHY.FLU.33.3 50ml
PHY-FLU-034 COMMUNICATING VESSEL ON WOODEN STAND
SSI.PHY.FLU.034
Demonstrates that the liquid level in communicating vessels remain same irrespective of the shapes and sizes of the vessels. Comprises four glass tubes, each of different cross-sectional size and shape, connected together at the bottom through a common horizontal glass tube and mounted on stand…
PHY-FLU-035 LIQUID LEVEL APPARATUS ON PLASTIC BASE
SSI.PHY.FLU.035
Economical version, Comprises four glass tubes, each of different cross-sectional size and shape, connected together at the bottom through a common horizontal glass tube and mounted on stand.
PHY-FLU-036 VENTURI TUBE DEMONSTRATOR
SSI.PHY.FLU.036
A simple device for the demonstration of Bernoulli’s Law. Similar devices fine extensive application in everything from carburetors of IC engines to aircraft airspeed indicators. Comprising of a horizontal glass tube having three cross sections along its lengthwise, narrow and wide respectively, with wide cross-sections having same size. One short,
PHY-FLU-037 MANOMETER GLASS ON STAND
SSI.PHY.FLU.037
Glass manometer tube, U-shaped, with stopcock near the end of one arm, mounted on a stand with back plate. Scale having graduations 0-50cm × 1mm, with 0 at the bottom. Size of back plate about 540x90mm (Height × Width)
PHY-FLU-038 LARGE MANOMETER GLASS ON WOODEN STAND
SSI.PHY.FLU.038
Large sized U-shaped glass manometer, mounted on a back-plate with provision for hanging on wall. Scale having graduations 260-0-260 with 2 mm subdivisions Size of back plate about 67 × 8 cm (Height × Width).
PHY-FLU-039 CAPILLARY TUBE APPARATUS
SSI.PHY.FLU.039
For demonstrating the effect of capillary action, i.e., relationship between capillary pressure or level of liquid in capillary and the bore diameter of the capillary tube. The apparatus comprises a rectangular sheet metal frame, the base of which takes the form of a trough for holding water. The upper part
PHY-FLU-040 DENSITY SPHERE
SSI.PHY.FLU.040
Demonstrates the dependence of density of a liquid on the temperature. Comprises a hollow sphere, with a sealed mouth, carefully adjusted to float in cold water and sink in the hot water.