The mass of object B is 5 kilograms.
Object B will experience a small increase in velocity due to the collision with object A, according to the law of conservation of momentum. Since object A has a smaller mass and is moving at low speed, the impact on object B will be minimal.
Object a likely has a greater mass than object b since they have the same kinetic energy but object b is moving faster. This suggests that object a has more inertia compared to object b.
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.
Not necessarily, it would depend on the density of the object. Density = mass / volume. So, you could have something like this. Density of A = 10 g/mL, volume of A = 1 mL. Density of B = 1 g/mL, volume = 5mL. The volume of A < B, however, the mass of A > B.
The gravitational force between object A and object B increases as the mass of either object increases. In other words, the greater the mass of either object, the stronger the gravitational force between them.
Object B will experience a small increase in velocity due to the collision with object A, according to the law of conservation of momentum. Since object A has a smaller mass and is moving at low speed, the impact on object B will be minimal.
object B has greater density recall the formula for density is = mass/volume since volume is the same, a greater mass will give a greater density
You could conclude that object a has less kinetic energy than object b. - Object b has a greater inertia than object A
Mass b > mass a
Object a likely has a greater mass than object b since they have the same kinetic energy but object b is moving faster. This suggests that object a has more inertia compared to object b.
Any object that (a) has a mass, and (b) moves.
a ?
Object b has a smaller mass because Newton's second law says that F=ma ... or m=F/a ... or mass is inversely proportional to acceleration. Since the applied force (F) is the same in both situations and the acceleration (a) of object b is larger than that of object a, object b must be smaller than object a.
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.
Not necessarily, it would depend on the density of the object. Density = mass / volume. So, you could have something like this. Density of A = 10 g/mL, volume of A = 1 mL. Density of B = 1 g/mL, volume = 5mL. The volume of A < B, however, the mass of A > B.
B. centigrams. The mass of an object is typically measured in grams or kilograms. Centigrams are one of the units that can be used to measure mass, with milligrams and decigrams being other commonly used units.
The gravitational force between object A and object B increases as the mass of either object increases. In other words, the greater the mass of either object, the stronger the gravitational force between them.