Given the question as is, neither - objects have to be in motion in order to have inertia, and your question does nothing to state that they are.
Object A has more inertia because it has a greater mass. Inertia is directly proportional to an object's mass, so the greater the mass, the greater the inertia.
When moving the 1500kg has more inertia.
The car with a mass of 1500 kg has more inertia than the car with a mass of 900 kg. Inertia is directly proportional to mass, so the car with greater mass will have greater inertia.
Yes, the 2-kg iron brick has more inertia than the 1-kg block of wood. Inertia is directly proportional to mass, so an object with more mass has more resistance to changes in its state of motion.
1500kg. "Inertia" is a measurement of resistance of an object to a change of it's motion. Oversimplified, a train has more inertia than a car. The more mass, the more inertia, it applies to acceleration and deceleration equally. Galileo demonstrated inertia before Newton's "First Law of Motion" Here is the interesting part: It does not require force to keep an object in motion. Rather, it is a force that brings an object to rest. That being friction. Inertia must not be confused with momentum, they are two different things in physics.
Object A has more inertia because it has a greater mass. Inertia is directly proportional to an object's mass, so the greater the mass, the greater the inertia.
150 kg sumo wrestler
When moving the 1500kg has more inertia.
When moving the 1500kg has more inertia.
The car with a mass of 1500 kg has more inertia than the car with a mass of 900 kg. Inertia is directly proportional to mass, so the car with greater mass will have greater inertia.
e=mc^2 100*2^2 < 75*3^2 Answer = 75 KG player running at 3 ms
24 kg is 32 percent of 75 kg. Simply multiply 24 kg by 100% and then divide by 75 kg to convert to percentage.
Yes, the 2-kg iron brick has more inertia than the 1-kg block of wood. Inertia is directly proportional to mass, so an object with more mass has more resistance to changes in its state of motion.
The unit of Inertia is kg and the Moment of Inertia is kg*m^2
1500kg. "Inertia" is a measurement of resistance of an object to a change of it's motion. Oversimplified, a train has more inertia than a car. The more mass, the more inertia, it applies to acceleration and deceleration equally. Galileo demonstrated inertia before Newton's "First Law of Motion" Here is the interesting part: It does not require force to keep an object in motion. Rather, it is a force that brings an object to rest. That being friction. Inertia must not be confused with momentum, they are two different things in physics.
.75 kg = 750000 mg.75 kg = 750000 mg.75 kg = 750000 mg.75 kg = 750000 mg.75 kg = 750000 mg.75 kg = 750000 mg
4 times as great