They are manufactured with only the highest grade, raw materials and according to international quality standards to ensure that they can withstand use in even the toughest laboratory environments.
Irregular shaped solid = 0.08lb, 1.75" x 1.5" x 1"Ģ50ml beaker with spout = 0.2lb, 3.8" x 3.8" x 3", spout = 1" long, inner dia = 5mm, outer dia = 9mmĥ0ml beaker = 0.01lb, 2.45" x 2.2" x 1.95", spout = 0.4"Įisco Labs proudly manufactures its own products using state-of-the-art equipment, and following the highest standards of quality control.Įach product is carefully designed by a team of laboratory professionals and experienced engineers with quality and durability in mind. Set contains a regular-shaped metal solid, an irregular-shaped metal solid, a 250ml capacity glass beaker with spout, a 50ml plastic beaker with spout and a Newton meter.Īdditional required components (NOT included): Base & rod set (CH0653E1RD3) and suspension clamp (CH0667). Can be used to calculate the density of any liquid.Īn ideal choice for science classrooms and household use. Used to explain Archimedes Principle that the buoyant force on an object submerged in a fluid is equal to the weight of the fluid that is displaced by that object. Excellent demonstration tool for science classrooms principle that describes the effect of the buoyant force acting on an object that is.Kit does not contain a base, rod, or suspension hook.Set contains a regular-shaped metal solid, an irregular-shaped metal solid, a 250ml capacity glass beaker with spout, a 50ml plastic beaker with spout and a Newton meter.The relationship between buoyancy and volume displaced is given by Archimedes principle which states that 'When a body is immersed fully or partially in a fluid, it experiences an upward force that is equal to the weight of the fluid displaced by it.' Experiment Code. Can be used to calculate the density of any liquid It is a consequence of pressure increasing with fluid depth.Used to explain that the buoyant force on an object submerged in a fluid is equal to the weight of the fluid that is displaced by that object (Archimedes Principle).