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Evacuated glass tubes, about 26cm long, straight \nform, fi lled with different types of gases or vapours \nto study their respective discharge. The glass tubes \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply an
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Housed in black metal body, specially molded spectrum tube sockets enable the tube to be placed in position easily and also provides protection against electrical contact. Bottom socket is spring loaded for easy tube
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Evacuated glass tubs, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
Wooden with base and top with single row of 6 holes, clips together quickly and easily with two moulded supports. Height 11 cm can accept two tubes of 30 mm and four tubes of 20 mm dia.
‘Z’ shape, made from 18 gauge aluminium sheet, anodized and 3 tier. With 5 holes of 27 mm dia., 6 holes of 19 mm dia. and 8 holes of 13mm dia. Overall height of 75 mm and length of 200 mm
Plated spring steel wire holder with finger grip. The jaws will accept tubes up to 40mm dia. Overall length 16cm.
A brightly colored red and blue plastic test tube rack holds five large test tubes. The five holes are 32 mm diameter and it quickly disassembles for storage.
Wooden with base and top with single row of 6 holes, clips together quickly and easily with two moulded supports. Height 11 cm can accept two tubes of 30 mm and four tubes of 20 mm dia.
Aluminium, made from thick anodised aluminium sheet, in three tiers.
These racks can conveniently hold inverted tubes for drying purpose and minimize collection of air borne contaminants inside the tube. The rack can also be used to hold and dry electrophoresis and chromatography plates. \n \n60 Pegs for 16mm dia T
Aluminium, made from thick anodised aluminium sheet, in three tiers.
Aluminium, made from thick anodised aluminium sheet, in three tiers.
Aluminium, made from thick anodised aluminium sheet, in three tiers.
These racks can conveniently hold inverted tubes for drying purpose and minimize collection of air borne contaminants inside the tube. The rack can also be used to hold and dry electrophoresis and chromatography plates. 90 Pegs for
A brightly colored red and blue plastic test tube rack holds five large test tubes. The five holes are 32 mm diameter and it quickly disassembles for storage.
Metal frame with six glass tubes of different bores, each of 150 mm length, fitted with corks, to show different heights of water column in different bore tubes.
Limbs 280 x 5 mm bore with ends riffled & bent at 90° for rear connections, mounted on graduated plastics base.
To show the convection of heat in a liquid. Glass tube 20 mm outer diameter bent into rectangle approx. 380 x 300 mm fitted with filling funnel. Made from borosilicate glass
Centrifuge tubes are thick-walled and resistant to mechanical stress 100 X 13MM
Centrifuge tubes are thick-walled and resistant to mechanical stress 100 x 13mm
Polypropylene, autoclavable, unbreakable, non - corrosive, for easy handling and compact storage.
Objectives To measure the magnetic susceptibility of a given paramagnetic sample (FeCl3). Principle The Quinck’s method is used to determine magnetic susceptibility of diamagnetic or paramagnetic subs
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Evacuated glass tubes, about 26cm long, straight \nform, fi lled with different types of gases or vapours \nto study their respective discharge. The glass tubes \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply an
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Housed in black metal body, specially molded spectrum tube sockets enable the tube to be placed in position easily and also provides protection against electrical contact. Bottom socket is spring loaded for easy tube
Evacuated glass tube, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
Evacuated glass tubs, about 26cm long, straight \nform, filled with different types of gases or vapours \nto study their respective discharge. The glass tube \nhas metal cap electrodes at both the ends for \nconnecting to high voltage supply and a
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
3-tier design provide clear view of the tube contents and convenient insertions and removal of tubes. These autoclavable racks can withstand sub-freezing temperatures. Material: Polypropylene.
Wooden with base and top with single row of 6 holes, clips together quickly and easily with two moulded supports. Height 11 cm can accept two tubes of 30 mm and four tubes of 20 mm dia.
‘Z’ shape, made from 18 gauge aluminium sheet, anodized and 3 tier. With 5 holes of 27 mm dia., 6 holes of 19 mm dia. and 8 holes of 13mm dia. Overall height of 75 mm and length of 200 mm
Plated spring steel wire holder with finger grip. The jaws will accept tubes up to 40mm dia. Overall length 16cm.
A brightly colored red and blue plastic test tube rack holds five large test tubes. The five holes are 32 mm diameter and it quickly disassembles for storage.
Wooden with base and top with single row of 6 holes, clips together quickly and easily with two moulded supports. Height 11 cm can accept two tubes of 30 mm and four tubes of 20 mm dia.
Aluminium, made from thick anodised aluminium sheet, in three tiers.
These racks can conveniently hold inverted tubes for drying purpose and minimize collection of air borne contaminants inside the tube. The rack can also be used to hold and dry electrophoresis and chromatography plates. \n \n60 Pegs for 16mm dia T
Aluminium, made from thick anodised aluminium sheet, in three tiers.
Aluminium, made from thick anodised aluminium sheet, in three tiers.
Aluminium, made from thick anodised aluminium sheet, in three tiers.
These racks can conveniently hold inverted tubes for drying purpose and minimize collection of air borne contaminants inside the tube. The rack can also be used to hold and dry electrophoresis and chromatography plates. 90 Pegs for
A brightly colored red and blue plastic test tube rack holds five large test tubes. The five holes are 32 mm diameter and it quickly disassembles for storage.
Metal frame with six glass tubes of different bores, each of 150 mm length, fitted with corks, to show different heights of water column in different bore tubes.
Limbs 280 x 5 mm bore with ends riffled & bent at 90° for rear connections, mounted on graduated plastics base.
To show the convection of heat in a liquid. Glass tube 20 mm outer diameter bent into rectangle approx. 380 x 300 mm fitted with filling funnel. Made from borosilicate glass
Centrifuge tubes are thick-walled and resistant to mechanical stress 100 X 13MM
Centrifuge tubes are thick-walled and resistant to mechanical stress 100 x 13mm
Polypropylene, autoclavable, unbreakable, non - corrosive, for easy handling and compact storage.
Objectives To measure the magnetic susceptibility of a given paramagnetic sample (FeCl3). Principle The Quinck’s method is used to determine magnetic susceptibility of diamagnetic or paramagnetic subs
Showing products per page