The maximum speed a cat can reach when falling from a great height, also known as its terminal velocity, is around 60 miles per hour.
Corn can grow up to 12 feet tall, but the average height is around 8 feet. Factors that contribute to its maximum height include soil quality, water availability, sunlight exposure, and genetic traits of the corn variety.
The height of Dr. Jose Rizal is 4 feet 11 inches.
Le Don de Dieu had a height of 38.7 meters (127 feet).
Playing basketball at 17 years old does not have the potential to increase your height. Height is primarily determined by genetics and growth factors, not by playing a specific sport.
4'11''
Terminal velocity is typically reached within 10-12 seconds when falling from a height, depending on factors such as air resistance and the height of the fall.
Yes, you can survive terminal velocity if you have the proper equipment, such as a parachute, to slow down your fall before reaching the ground. Terminal velocity is the maximum speed an object reaches when falling through the air, and with the right precautions, it is possible to survive a fall from this height.
Without air, the speed of a falling object keeps increasing, and never reaches a maximum. The only thing that causes it to reach a maximum and stop increasing is air resistance. The effects of air resistance depend on the size, shape, and composition of the object, and the calculation of the "terminal velocity" in advance is very complex.
The instantaneous velocity at the maximum height is zero because the object momentarily stops moving before falling back down due to gravity.
The speed of an object falling from a great height is measured in meters per second per second until it reaches terminal velocity (maximum downward speed).
Terminal velocity is the maximum speed an object reaches when falling through a fluid (such as air) due to balance between gravity and air resistance. The exact height you need to reach to achieve terminal velocity varies depending on factors like your weight, body position, and the specific characteristics of the air around you. In a general sense, skydivers typically reach terminal velocity within about 10-12 seconds of freefall from an altitude of around 12,000 feet.
The terminal velocity for a mouse is estimated to be around 10 mph (16 kph). This means that when a mouse falls from a height, it will reach a maximum speed of about 10 mph before air resistance balances the force of gravity.
A falling object accelerates at a rate of 9.8 m/s2. That means that for every second that it is falling, its velocity increases by 9.8 m/s. The higher that the object is falling from, the longer it will have to speed up, thus the higher its velocity upon impact will be. (This is assuming that it does not reach terminal velocity, the velocity at which an object can no longer accelerate because it is travelling so fast that the drag force (air resistance) is equal to the force of gravity.)
To measure the velocity of a falling object when the height is 2m, you can use the equation v=sqrt(2gh), where g is the acceleration due to gravity (approximately 9.81 m/s^2) and h is the height (2m). Plug in these values to calculate the velocity of the falling object when it reaches a height of 2m.
vf = sqrt(vo2 + 2a(X - Xo)) in this casevf = sqrt(0+2*9.8(Height of shelf)
The velocity-time graph for a body dropped from a certain height would show an initial spike in velocity as the object accelerates due to gravity, reaching a maximum velocity when air resistance equals the force of gravity. After this, the velocity would remain constant, representing free fall with a terminal velocity. When the object hits the ground, the velocity suddenly drops to zero.
To determine the maximum height reached by an object launched with a given initial velocity, you can use the formula for projectile motion. The maximum height is reached when the vertical velocity of the object becomes zero. This can be calculated using the equation: Maximum height (initial velocity squared) / (2 acceleration due to gravity) By plugging in the values of the initial velocity and the acceleration due to gravity (which is approximately 9.81 m/s2 on Earth), you can find the maximum height reached by the object.