an object will fall at around 50ft every second, so around 3 seconds.
Well, let's think about this together. The horizontal distance the ball travels is 45 meters, and we know the initial horizontal velocity is 15 m/s. Using the formula for horizontal distance, time, and velocity, we can calculate the time it takes for the ball to reach the ground. Then, we can use this time in the vertical motion formula to find the height of the cliff. Remember, mistakes are just happy accidents in the world of math!
The height of the cliff can be calculated using the formula for free fall: h = (1/2)gt^2, where h is the height, g is the acceleration due to gravity (9.8 m/s^2), and t is the time (6 seconds). Plugging in the values, we get h = (1/2)(9.8 m/s^2)(6 s)^2 = 176.4 meters. Therefore, the height of the cliff is 176.4 meters.
An object has potential engergy when it is any height above the ground. The object does not have to be moving to have engergy. This is like a stored energy. It takes energy to move or raise an object to a height level. This object now has stored that energy.
When an object at a high elevation loses height, its gravitational potential energy decreases as it moves closer to the ground. This potential energy is converted into kinetic energy as the object accelerates due to gravity. The object's speed increases as it falls towards the ground until it reaches the ground or another surface.
The name Cliff is of English origin and means "slope or high area." In terms of vibrations, the name Cliff carries a strong and stable energy, often associated with reliability, practicality, and a grounded nature.
If all the rain that falls in Cherrapunji stayed on the ground, it would reach about 467 inches annually.
176.4 meters
"3.2" or "3.20" please put all of that
snowing
Answer: 44 meters
a water fall is where a river or stream falls over a cliff or high rocky place.
a water fall is where a river or stream falls over a cliff or high rocky place.
64 metersIf a ball is thrown horizontally at 20 m/s from the top of a cliff that is 50 meters high, the ball will strike the ground 64 m from the base of the cliff (20m/s x 3.2 s).
64 METERSA+
Well, let's think about this together. The horizontal distance the ball travels is 45 meters, and we know the initial horizontal velocity is 15 m/s. Using the formula for horizontal distance, time, and velocity, we can calculate the time it takes for the ball to reach the ground. Then, we can use this time in the vertical motion formula to find the height of the cliff. Remember, mistakes are just happy accidents in the world of math!
Matters how high you drop it from.
A steep cliff about 100 stories high is commonly referred to as a "sheer cliff" or a "precipice."