Answer:
19.6 m
Explanation:
Apex ; good luck to all :)
2) 5m
3) 500m
3) 5,000,000m
An electromagnetic am band radio wave could have a wavelength of 500m, i.e., 500 meters(Option 3).
A wavelength is a disturbance that travels into space with a given frequency and amplitude.
In conclusion, an electromagnetic am band radio wave could have a wavelength of 500m (Option 3).
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Answer:
The answer is Hawaiian or Shield volcano.
Explanation:
Volcanoes can be classified according to their shape or according to their type of eruption.
Hawaiian volcanoes (also known as shield volcano) are volcanoes of calm eruption, because the lava is very fluid. The gases are easily released and no explosions occur. The volcano that forms has a shield appearance, since lava, being very fluid, covers a large area before solidifying.
b. 93 thousand miles
c. 93 million miles
d. 93 billion miles
Rock concerts and whispers are examples of a high-amplitude sound and a low-amplitude sound.
The largest displacement of sound wave constituents from their resting positions is referred to as amplitude. It stands for the loudness or intensity of a sound, to put it simply. Here are some illustrations of both high and low-amplitude sounds:
High Amplitude Sound: An illustration of a high amplitude sound is a rock concert with loudspeakers blaring songs at full intensity. The concert speakers produce sound waves with a tremendous amplitude, creating a powerful, strong sound that can be heard from a great distance.
Low Amplitude Sound: A low amplitude sound is something like the sound of a whisper. The sound created when someone whispers is calm and soft and not as loud as a rock concert, since the sound waves produced have a tiny amplitude.
In both cases, how loud or soft the sound is perceived by our ears depends on the amplitude of the sound waves. Low-amplitude sounds are soft and quiet, but high-amplitude sounds are strong and loud.
Hence, rock concerts and whispers are examples of a high-amplitude sound and a low-amplitude sound.
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Answer:
The question seems to refer to Newton's Laws of Motion. Here are examples of the 1st, 2nd, and 3rd laws:
1st Law (Law of Inertia):
- An object at rest tends to stay at rest, and an object in motion tends to stay in motion with the same speed and direction unless acted upon by an external force.
- Example: When a car suddenly stops, passengers continue to move forward due to their inertia until a seatbelt or airbag applies a force to stop them.
2nd Law (Law of Acceleration):
- The acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass.
- Example: When pushing a heavy box and a lighter box with the same amount of force, the lighter box accelerates more because it has less mass.
3rd Law (Law of Action and Reaction):
- For every action, there is an equal and opposite reaction.
- Example: When you push against a wall, the wall pushes back with an equal amount of force.
It's important to note that these laws are foundational principles in classical physics and are widely applicable in understanding the behavior of objects in motion.
Explanation: