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A plane flying 100kmh due north encounters a crosswind of 100kmh from the east ie blowing westward What then is the planes velocity relative to the ground?
The resultant velocity of the plane relative to the ground can be calculated using vector addition. Given the plane's speed due north (100 km/h) and the crosswind speed (100 km/h westward), use the Pythagorean theorem to find the resultant velocity. The resultant velocity will be 141 km/h at an angle of 45 degrees west of north.
An airplane flying from Los Angeles to New York is traveling at a velocity of 1200 kmh east there is a tail wind with a velocity of 60 kmh east what is the resultant velocity of the airplane in Kph?
The resultant velocity is calculated by adding the velocity of the airplane to the velocity of the tailwind, as they are in the same direction. Therefore, the resultant velocity of the airplane is 1260 km/h east (1200 km/h + 60 km/h).
An airplane flying from New York to Los Angeles is traveling at a velocity of 1400 kph west. There is a head wind with a velocity of 20 kph east. What is the resultant velocity of the airplane in kph?
The resultant velocity is calculated by subtracting the headwind velocity from the airplane's velocity: 1400 kph (west) - 20 kph (east) = 1380 kph (west)
A bird is flying north with a mass of 2.5 kg has a momentum of 17.5 kg ms. at what velocity is it flying?
The momentum of an object is calculated by multiplying its mass by its velocity. In this case, the bird's momentum is 17.5 kg m/s and its mass is 2.5 kg. To find the velocity, divide the momentum by the mass: 17.5 kg m/s / 2.5 kg = 7 m/s. Therefore, the bird is flying at a velocity of 7 m/s.
What will happen to a whirling ball attached to a string if it is suddenly released?
The ball will follow a tangent to its circular path due to its inertia, flying off in a straight line rather than falling vertically. This is because of its angular momentum, which causes it to maintain velocity in a straight line until acted upon by another force.
A plane flying 100kmh due north encounters a crosswind of 100kmh from the east ie blowing westward What then is the planes velocity relative to the ground?
The resultant velocity of the plane relative to the ground can be calculated using vector addition. Given the plane's speed due north (100 km/h) and the crosswind speed (100 km/h westward), use the Pythagorean theorem to find the resultant velocity. The resultant velocity will be 141 km/h at an angle of 45 degrees west of north.
An airplane flying from Los Angeles to New York is traveling at a velocity of 1200 kmh east there is a tail wind with a velocity of 60 kmh east what is the resultant velocity of the airplane in Kph?
The resultant velocity is calculated by adding the velocity of the airplane to the velocity of the tailwind, as they are in the same direction. Therefore, the resultant velocity of the airplane is 1260 km/h east (1200 km/h + 60 km/h).
An airplane flying from New York to Los Angeles is traveling at a velocity of 1400 kph west. There is a head wind with a velocity of 20 kph east. What is the resultant velocity of the airplane in kph?
The resultant velocity is calculated by subtracting the headwind velocity from the airplane's velocity: 1400 kph (west) - 20 kph (east) = 1380 kph (west)
An airplane flying from New York to Los Angeles is traveling at a velocity of 1400 kph west There is a head wind with a velocity of 20 kph east What is the resultant velocity of the airplane in kph?
1380 kph west
An airplane flying from Los Angeles to New York is traveling at a velocity of 1200 kilometers per hour east There is a tail wind with a velocity of 60 kilometers per hour east What is the resultant?
1260 kph east
An airplane flying from Los Angeles to New York is traveling at a velocity of 1200 kilometers per hour east. There is a tail wind with a velocity of 60 kilometers per hour east. What is the resultant?
1260 kph east
What are the powers of executive?
flying and blowing up Oranges
What is the resultant velocity of the plane if an airplane flying toward 0 degree at 90.0 km per hour is being blown toward 90 degrees at 50.0 km per hour?
This problem can be solved using the pythagorean theoremA2 + B2 = C2A = 90 km/hB = 50 km/h 902 + 502 = 10,600√10,600 = 103.0C = 103 km/h
How do you use flying in a sentence?
When the bus suddenly stopped, several standing riders went flying forward. I enjoy flying a kite.
What entertainment do Saudi Arabia have?
Blowing up Americans and flying into stuff
Can you give easy sentences for kids using the word suddenly?
Sure! I was playing outside when suddenly it started raining. Suddenly, I saw a butterfly flying in the garden. The bell rang suddenly, and it startled everyone in the classroom.
A bird is flying north with a mass of 2.5 kg has a momentum of 17.5 kg ms. at what velocity is it flying?
The momentum of an object is calculated by multiplying its mass by its velocity. In this case, the bird's momentum is 17.5 kg m/s and its mass is 2.5 kg. To find the velocity, divide the momentum by the mass: 17.5 kg m/s / 2.5 kg = 7 m/s. Therefore, the bird is flying at a velocity of 7 m/s.
