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What else can I help you with?
An object is on a frictionless inclined plane The plane is inclined at an angle of 30 degrees with the horizontal What is the objects acceleration?
.50g
A right angle is an angle that has a?
A right angle is a angle with 90o
What angle does a hemisphere have?
what angle does a hemisphere have what angle does a hemisphere have what angle does a hemisphere have
How can you use a right angle to decide how to name another angle?
So basically , you have an right angle and another angle . You draw an right angle over the angle your looking at and if its smaller than the right angle then its an acute angle . If its bigger than the right angle then its a obtuse angle . GoodLuck!(;
What angle is 190?
A 190 degree angle is a reflex angle.
How to find acceleration with mass and angle?
To find acceleration with mass and angle, you can use the formula: acceleration (force sin(angle)) / mass. This formula takes into account the force acting on an object at an angle and divides it by the mass of the object to determine its acceleration.
Acceleration related to angle of inclination?
The acceleration of an object on an incline is influenced by the angle of inclination. A steeper incline will result in a greater component of the object's weight acting parallel to the incline, leading to a greater acceleration. The acceleration can be calculated using the formula a = g * sin(theta), where "a" is the acceleration, "g" is the acceleration due to gravity, and "theta" is the angle of inclination.
Why does the acceleration of an object rolled down an incline increase as the angle of incline increases?
The contribution of the acceleration of gravity in the direction of motion increases as the angle of the incline increases. Or in other words, as the angle between the direction of motion and the force of gravity goes to zero, the acceleration of the object goes to the gravitational acceleration. a = g cos(theta) Where theta is the angle between the direction of motion and verticle, which is in fact (theta = 90 - angle of the incline)Where a is the acceleration of the object down the incline plane and g is the acceleration due to gravity. Theta is the angle between the direction of motion of the accelerating object and the acceleration of gravity. Initially, the angle between a and g is 90 degrees (no incline) and therefore g contributes nothing to the objects acceleration. a = g cos(90) = 0 As the angle of the inclined is increased, the angle between a and g approaches zero, at which point a = g. With no other forces acting upon the object, g is its maximum acceleration.
Is acceleration directly proportional to the angle of inclination?
Acceleration is not directly proportional to the angle of inclination. Acceleration depends on the force acting on an object, with the angle of inclination affecting the components of the force acting along different axes. Therefore, acceleration can vary with the angle of inclination but is not directly proportional.
What is the Relationship between acceleration and angle of slope?
The acceleration of an object on an inclined plane is directly influenced by the angle of the slope. As the angle of the slope increases, the component of the gravitational force acting parallel to the surface of the incline also increases, leading to a greater acceleration of the object sliding down the slope.
What is the acceleration of a block on an inclined plane?
The acceleration of a block on an inclined plane is determined by the angle of the incline and the force of gravity acting on the block. It can be calculated using the formula: acceleration (sin ) g, where is the angle of the incline and g is the acceleration due to gravity (approximately 9.81 m/s2).
Derive an expression for acceleration of a body moving downward on an inclined plane making angle 0 with the horizontal when friction is present?
The acceleration of a body moving downward on an inclined plane with angle θ when friction is present can be expressed as: a = g(sinθ - μcosθ) where: a = acceleration of the body g = acceleration due to gravity θ = angle of the inclined plane μ = coefficient of friction
How do you find acceleration of an object in motion when the height and angle are given?
To find the acceleration of an object in motion when the height and angle are given, you can use trigonometry to resolve the height and angle into their horizontal and vertical components. Once you have these components, you can use the equations of motion to calculate the acceleration in each direction separately. Then, you can combine these accelerations using vector addition to find the total acceleration of the object.
How can one determine the acceleration down a ramp?
To determine the acceleration down a ramp, you can use the formula: acceleration (sin ) g, where is the angle of the ramp and g is the acceleration due to gravity (approximately 9.8 m/s2). This formula takes into account the angle of the ramp and the force of gravity acting on the object.
What are the following terms-angular acceleration-centripetal acceleration-instantaneous acceleration-ballistic pendulum-angle of deviation-therionic emission of light-first law of thermodynamic?
instantaneous acceleration is the acceleration at one point. yeah, it's true
Why would acceleration be affected by angle of inclination?
Acceleration is affected by the angle of inclination due to the component of gravitational force acting parallel to the surface. As the angle increases, a larger portion of the gravitational force contributes to accelerating an object down the slope. Conversely, at smaller angles, less gravitational force acts parallel to the incline, resulting in lower acceleration. Thus, the steeper the incline, the greater the acceleration experienced by an object moving down it.
Does the angle you throw at affect the acceleration in either direction?
No, the angle at which you throw an object does not affect the acceleration in either direction. Acceleration is determined by the initial velocity and the forces acting on the object, such as gravity. The angle only affects the direction of the object's motion.
