0
What else can I help you with?
What is a resultant velosity?
Resultant velocity is the overall velocity of an object when taking into account both its speed and direction. It is calculated by combining the individual velocities of the object using vector addition. The resultant velocity represents the net effect of all the individual velocities acting on the object.
What is the velocity of a plane traveling northwest at 610 mhp?
The velocity of a plane traveling northwest at 610 mph can be calculated using vector addition. The velocity will have two components: one in the north direction and one in the west direction. These components can be calculated using trigonometry, with the magnitude of the resultant velocity being 610 mph.
What is the equation for resultant velocity?
The equation for resultant velocity is the vector sum of all individual velocities acting on an object. Mathematically, it can be represented as Vr = V1 + V2 + V3 + ..., where Vr is the resultant velocity and V1, V2, V3, etc. are the individual velocities. This equation takes into account both the magnitude and direction of each velocity component to determine the overall resultant velocity of the object.
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.
What is the formula for resultant displacment?
The formula for resultant displacement can be calculated using the Pythagorean theorem. It is given by: Resultant displacement = √(horizontal displacement^2 + vertical displacement^2)
When Resultant velocity is calculated by using which two math functions?
The answer depends on what information you start with. For example, if you are given acceleration then you might integrate whereas if you are given displacement, you might differentiate.
What is a resultant velosity?
Resultant velocity is the overall velocity of an object when taking into account both its speed and direction. It is calculated by combining the individual velocities of the object using vector addition. The resultant velocity represents the net effect of all the individual velocities acting on the object.
What is the velocity of a plane traveling northwest at 610 mhp?
The velocity of a plane traveling northwest at 610 mph can be calculated using vector addition. The velocity will have two components: one in the north direction and one in the west direction. These components can be calculated using trigonometry, with the magnitude of the resultant velocity being 610 mph.
What is the equation for resultant velocity?
The equation for resultant velocity is the vector sum of all individual velocities acting on an object. Mathematically, it can be represented as Vr = V1 + V2 + V3 + ..., where Vr is the resultant velocity and V1, V2, V3, etc. are the individual velocities. This equation takes into account both the magnitude and direction of each velocity component to determine the overall resultant velocity of the object.
How would you compute the resultant velocity given a linear velocity and an angular velocity?
by using trig. So draw a triangle out with the given information. for example 1 line is 12m/s, another line is Um/s (u for unknown) and one line is resultant velocity. add your angle in and use trig to work out what you want.
At what angle is the resultant force acting?
The angle of the resultant force can be calculated using trigonometry principles such as the Pythagorean theorem and inverse trigonometric functions. Given the magnitudes of the two component forces, you can determine the angle using the formula: angle = arctan(opposite/adjacent). This will help you find the direction in which the resultant force is acting.
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.
What is the formula for resultant displacment?
The formula for resultant displacement can be calculated using the Pythagorean theorem. It is given by: Resultant displacement = √(horizontal displacement^2 + vertical displacement^2)
What is resultant of displacement?
The resultant of displacement is the vector sum of two or more displacements. It represents the total displacement from the starting point to the final position, taking into account both direction and magnitude. It can be calculated using vector addition methods.
How can the velocity of an object be calculated using acceleration and time?
The velocity of an object can be calculated by multiplying the acceleration of the object by the time it has been accelerating for. This calculation is done using the formula: velocity acceleration x time.
When a rectangle is constructed in order to add velocities what represents the resultant of the velocities?
The diagonal of the rectangle represents the resultant of the velocities when added using vector addition. The magnitude and direction of this diagonal give the magnitude and direction of the resultant velocity vector.
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
