The number of suction cups required to lift a 100-gram object would depend on the size and strength of the suction cups. Generally, multiple suction cups would be used to distribute the weight evenly and ensure a secure grip. It is best to consult specific suction cup specifications or conduct tests to determine the exact number needed.
The amount of energy needed to increase one gram of water by one degree Celsius is known as the specific heat capacity of water, which is 4.18 Joules/gram °C.
One gram is equivalent to 0.0098 Newtons when considering the force exerted due to gravity.
That's the "dyne". 1 dyne = 1 gram-centimeter/second2 1 Newton = 105 dynes
The force pulling the 100 gram mass down is its weight, which is equal to the mass times the acceleration due to gravity. In this case, the force is 0.98 Newtons (0.1 kg * 9.8 m/s^2).
The mass of an apple is described in grams, the weight of the same apple is described in Newtons. This is the force that a mass exerts due to the local attraction of gravity. A gram mass is consistent throughout the universe, a gram force changes, Unfortunately the weight of an apple is often expressed as a gram without noting that this is gram force.
No, gram is a unit of mass; the unit of force is newton.
Force is measured in newton. Gram is a unit of mass, not of force.Force is measured in newton. Gram is a unit of mass, not of force.Force is measured in newton. Gram is a unit of mass, not of force.Force is measured in newton. Gram is a unit of mass, not of force.
Gram-force is the gravity force generated by a gram of material, so a gram of metal on a table would exert one gram-force on the table. A milligram is 1/1000th of a gram, so a milligram of metal it would exert 1/1000 of a gram-force on the same table. For reference, 1 kilogram of material exerts about 9.8N of force (1 kg * 9.8 m/s2), so a milligram-froce would equal 0.0000098N.
A half gram of hemoglobin can carry about 1.34 milliliters of oxygen when it is at 100 saturation.
No, it is a unit of mass.
1000 gm or 1 kilo gram
The amount of energy needed to increase one gram of water by one degree Celsius is known as the specific heat capacity of water, which is 4.18 Joules/gram °C.
One gram is equivalent to 0.0098 Newtons when considering the force exerted due to gravity.
one thousand
brown and dark soils
That's the "dyne". 1 dyne = 1 gram-centimeter/second2 1 Newton = 105 dynes
The heat needed to melt one gram of a solid at its melting point depends on the heat of fusion value of the solid. To melt one gram of ice, for example, would require 334 J.