4*sin(10) = 0.6945927107 or about 0.7 km
An angle that is 180 degrees would be considered a straight angle. 90 degrees is a right angle, anything less would be an acute angle and anything more would be obtuse.
An angle would only be a right angle if it was equal to 90 degrees. Anything less than that would be an acute angle and anything more would be obtuse.
It would be an acute angle. The angle would be at 88 degrees.
A supplementary angle is the one you would add to an angle to bring the total to 180°, In this that would be 15°.
4*sin(10) = 0.6945927107 or about 0.7 km
If Earth's angle of inclination was 0 degrees, there would be no change in the insulation levels in High Level, Alberta. Insolation (incoming solar radiation) is more influenced by variations in solar angle, day length, and cloud cover than by Earth's axial tilt. Therefore, insulation levels in High Level would likely remain relatively constant throughout the year.
The force required to push or pull an object along an inclined plane depends on the angle of the incline and the coefficient of friction between the object and the surface. The force can be calculated using the formula: force = mass * gravitational acceleration * sin(angle of incline) + mass * gravitational acceleration * cos(angle of incline) * coefficient of friction.
The angle of deflection of a charged particle in a magnetic or electric field is not affected by its mass. The angle of deflection is determined by the charge and velocity of the particle, as well as the strength of the field.
The acceleration of the object would still be g downward, regardless of the angle at which it is thrown upward. The acceleration due to gravity always acts in the downward direction towards the center of the Earth. The only difference would be the horizontal component of the velocity due to the initial angle of the throw.
No, the value of acceleration due to gravity (g) would not be affected by changing the size of the bob in a simple pendulum experiment. The period of a simple pendulum is determined by the length of the pendulum and the gravitational acceleration at that location, not the size of the bob.
The acceleration of the person on a swing can be increased by increasing the angle of release, as a greater angle results in a longer pendulum length and thus greater acceleration. Additionally, increasing the initial height from which the person is released can also lead to higher acceleration due to the increased potential energy. Finally, reducing air resistance by swinging in a more aerodynamic position can help increase acceleration.
No, the value of the acceleration due to gravity, denoted by g, is not affected by the size of the bob. The mass of an object does not affect the acceleration due to gravity experienced by that object, assuming all other factors remain constant.
She had an inclination that her day was going to be very difficult. Another good sentence would be, he had an inclination that his car was going to die today.
if you double the earths density say , standing at the surface you would experience twice the acceleration, weight would be doubled
If the Earth had no axial tilt, there would be no seasons. Weather would probably be pretty boring.
If the Earth's rotation axis had no inclination, there would be no variation in the angle at which sunlight hits different parts of the Earth's surface, resulting in no distinct seasons. Areas at the equator would experience consistent temperatures year-round, while areas closer to the poles would have milder but less distinct seasonal changes.