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Maximum Height attained Calculator

Category Physics
Physics Theory of Machine
Theory-Of-Machine Kinematics of Motion
Kinematics-Of-Motion Inclined Projectile Motion
Initial Velocity is the velocity at which motion starts.Initial Velocity [u]
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Angle of Inclination is formed by the inclination of one line to another; measured in degrees or radians.Angle of Inclination [θ]
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The Acceleration Due To Gravity is acceleration gained by an object because of gravitational force.Acceleration Due To Gravity [g]
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Angle of plane denotes the angle made by the plainAngle of plane [α]
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Maximum Height is denoted as the largest distance an object covers in vertical direction in a projectile motionMaximum Height attained [Hmax
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Mayank Tayal
National Institute of Technology (NIT), Durgapur
Mayank Tayal has created this Calculator and 0+ more calculators!
Alithea Fernandes
Don Bosco College of Engineering (DBCE), Goa
Alithea Fernandes has verified this Calculator and 50+ more calculators!

11 Other formulas that you can solve using the same Inputs

Displacement of Body when initial velocity, time and acceleration are given
Displacement of Body=(Initial Velocity*Time Taken to Travel)+(Acceleration*(Time Taken to Travel)^2)/2 GO
Displacement of Body when initial velocity, final velocity and acceleration are given
Displacement of Body=((Final Velocity)^2-(Initial Velocity)^2)/(2*Acceleration) GO
Displacement of Body when initial velocity, final velocity and time are given
Displacement of Body=((Initial Velocity+Final Velocity)*Time Taken to Travel)/2 GO
Impulsive Force
Impulsive Force=(Mass*(Final Velocity-Initial Velocity))/Time Taken to Travel GO
Final Velocity of freely falling body from height h, when it reaches ground
Velocity on reaching ground=sqrt(2*Acceleration Due To Gravity*Height) GO
Final Velocity of body
Final Velocity=Initial Velocity+Acceleration*(Time Taken to Travel) GO
Archimedes Principle
Archimedes Principle=Density*Acceleration Due To Gravity*Velocity GO
Distance Traveled
Distance Traveled=Initial Velocity*T+(1/2)*Acceleration*(T)^2 GO
Potential Energy
Potential Energy=Mass*Acceleration Due To Gravity*Height GO
Average Velocity of body when initial and final velocity are given
Average Velocity=(Initial Velocity+Final Velocity)/2 GO
Pressure when density and height are given
Pressure=Density*Acceleration Due To Gravity*Height GO

Maximum Height attained Formula

Maximum Height=((Initial Velocity*sin(Angle of Inclination))^2)/(2*Acceleration Due To Gravity*cos(Angle of plane))
More formulas
Maximum height attained by object GO
Time of flight GO
Range of motion GO
Initial Speed when time of flight is given GO
Initial Speed when Maximum Height is given GO
Initial Velocity when Range is given GO
Time of Flight for Inclined Projectile GO
Maximum Range of Flight GO

What is Inclined Projectile Motion ?

Projectile motion on an incline plane is one of the various projectile motion types. The main distinguishing aspect is that points of projection and return are not on the same horizontal plane. There are two possibilities : (i) the point of return is at a higher level than the point of projection i.e projectile is thrown up the incline and (ii) Point of return is at a lower level than point of projection i.e. projectile is thrown down the incline.

How to Calculate Maximum Height attained?

Maximum Height attained calculator uses Maximum Height=((Initial Velocity*sin(Angle of Inclination))^2)/(2*Acceleration Due To Gravity*cos(Angle of plane)) to calculate the Maximum Height, The Maximum Height attained formula is defined as ( ( initial_velocity * sin ( angle_of_plane ) ) ^ 2 ) / ( 2 * acceleration_due_to_gravity * cos ( angle_of_inclination ) ). Maximum Height and is denoted by Hmax symbol.

How to calculate Maximum Height attained using this online calculator? To use this online calculator for Maximum Height attained, enter Acceleration Due To Gravity (g), Initial Velocity (u), Angle of Inclination (θ) and Angle of plane (α) and hit the calculate button. Here is how the Maximum Height attained calculation can be explained with given input values -> 146.109 = ((45*sin(89.771))^2)/(2*9.8*cos(45)).

FAQ

What is Maximum Height attained?
The Maximum Height attained formula is defined as ( ( initial_velocity * sin ( angle_of_plane ) ) ^ 2 ) / ( 2 * acceleration_due_to_gravity * cos ( angle_of_inclination ) ) and is represented as Hmax or Maximum Height=((Initial Velocity*sin(Angle of Inclination))^2)/(2*Acceleration Due To Gravity*cos(Angle of plane)). The Acceleration Due To Gravity is acceleration gained by an object because of gravitational force, Initial Velocity is the velocity at which motion starts, Angle of Inclination is formed by the inclination of one line to another; measured in degrees or radians and Angle of plane denotes the angle made by the plain.
How to calculate Maximum Height attained?
The Maximum Height attained formula is defined as ( ( initial_velocity * sin ( angle_of_plane ) ) ^ 2 ) / ( 2 * acceleration_due_to_gravity * cos ( angle_of_inclination ) ) is calculated using Maximum Height=((Initial Velocity*sin(Angle of Inclination))^2)/(2*Acceleration Due To Gravity*cos(Angle of plane)). To calculate Maximum Height attained, you need Acceleration Due To Gravity (g), Initial Velocity (u), Angle of Inclination (θ) and Angle of plane (α). With our tool, you need to enter the respective value for Acceleration Due To Gravity, Initial Velocity, Angle of Inclination and Angle of plane and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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