They can't. The vector sum of equal and opposite forces is zero,
and they can't produce any acceleration at all.
yes. edit: No. Action-reaction forces produce the same magnitude of FORCES. This is the reason why you can walk. Your foot pushes against the ground with a force of X. The ground will simultaneously push back with a force of X. This is what propels you. There are two objects in this motion, you and the earth. You may weigh a few hundred pounds so the force that is exerted upon you propels you upward/forward. The earth ways countless (not actually countless) tonnes, so it's acceleration is minor Fyou=myou*ayou Fearth=mearth*aearth mearth >>>> myou Fearth = Fyou myou*ayou=mearth*aearth Therefore the acceleration on the earth is much lower (ie accelerations are of different magnitude)
Fluorescent or incandescent.
Non-luminous. Objects which produce light of their own or give out or emit their own light are called luminous objects. Objects which do not produce light of their own, on the other hand, are called non-luminous objects. Luminous objects are objects like stars, sun and other celestial bodies which give out their own light. Objects surrounding us are not such light emitting objects. Therefore, we are surrounded by non-luminous objects.
No, magnets do not turn into flies. Magnets are objects that produce a magnetic field while flies are insects belonging to the order Diptera. They are completely different entities with no relation to each other.
Plates produce different types of boundaries because they exhibit different axis of movement and towards different direction.
An object can still move even if the action and reaction forces are equal because they act on different objects. The equal forces produce opposite accelerations on the two objects, causing them to move in opposite directions. This is described by Newton's third law of motion.
. . accelerations.
by their enginesall different soundsA xylophone
absorption and reflection of different wavelengths of light
Balanced forces cause stationary objects to remain at rest and moving objects to come to rest. If on exact opposite direction - nothing. Else it will produce a resultant force.
yes. edit: No. Action-reaction forces produce the same magnitude of FORCES. This is the reason why you can walk. Your foot pushes against the ground with a force of X. The ground will simultaneously push back with a force of X. This is what propels you. There are two objects in this motion, you and the earth. You may weigh a few hundred pounds so the force that is exerted upon you propels you upward/forward. The earth ways countless (not actually countless) tonnes, so it's acceleration is minor Fyou=myou*ayou Fearth=mearth*aearth mearth >>>> myou Fearth = Fyou myou*ayou=mearth*aearth Therefore the acceleration on the earth is much lower (ie accelerations are of different magnitude)
Action and reaction forces produce motion because for every action force there is an equal and opposite reaction force, as stated by Newton's third law of motion. These forces act on different objects, causing them to accelerate in opposite directions, thus producing motion. When the forces are unbalanced, motion occurs due to the resulting acceleration.
No, objects that produce light do not have to be hot. Some objects can produce light without being hot, like glow-in-the-dark materials or chemiluminescent compounds. The light emitted by these objects is due to different physical processes than traditional thermal emission.
yes, since the forces are acting on just one body, the mass (m) in the equation F=ma is not changing, which would mean that the two accelerations (a) would have to be different. If the two accelerations are different then there is total acceleration in one direction (the resultant acceleration).
No, poppies look quite different to the flower in "Batman Begins." Also, the effects are quite different. The alkaloids in opium do not produce fear, in fact they produce the opposite - sedation.
Illuminated objects
Stars, galaxies, nebulae, and other luminous celestial objects emit light in space. These objects emit different wavelengths and intensities of light based on their composition and physical characteristics.