A proton rests at the center of the rim of a hemispherical bowl of radius R. What is the electric flux through the surface of the bowl?
A proton rests at the center of the rim of a hemispherical bowl of radius R....
2. Hemispherical Bowl An inverted hemispherical bowl of radius R carries a uniform surface charge density σ. Find the potential difference between the "north" pole and the center.
1. Below is a hemispherical bowl (basically, half of a hollow sphere) with radius R and uniform charge per unit area: Figure 1: Problem 1 What is the electric field at the center of the hemisphere at the point P? To clarify, imagine we have a sphere instead of half a sphere. The point P corre sponds to the center of this sphere, so a height R above the bottom of the bowl.
A mass m is placed at the rim of a frictionless hemispherical bowl with a radius R and released from rest as in (Figure 1) . It then slides down and undergoes a perfectly elastic collision with a second mass 3msitting at rest at the bottom of the bowl. Part A: What is the speed of the first mass just after the collision? Part B: What is the direction of the first mass just after the collision? Part C: What...
released from rest in a smooth hemispherical bowl of radius R from the positions shown in the figure below. You can ignore friction between the masses and the surface of the bowl. If they stick together when they collide, how high above the bottom of the bowl will the masses go after colliding? Two identical masses are
Problem 2 A hemispherical surface with radius R is a region of uniform electric field E has its axis aligned parallel to the direction of the field. Derive an expression for the electric flux through the surface. Final answer not given
Two identical masses are released from rest in a smooth hemispherical bowl of radius R, from the positions shown in the figure . You can ignore friction between the masses and the surface of the bowl. If they stick together when they collide, how high above the bottom of the bowl will the masses go after colliding?
2) A solid uniform ball of mass m and radius r rolls down a hemispherical bowl of radius R, starting from a height h above the bottom of the bowl. The surface on the left half of the bowl has sufficient friction to prevent slipping, and the right side is frictionless. R (a) (5 marks) Determine the angular speed w the ball rotates in terms of e', when it rolls without slipping. (b) (5 marks) Derive an expression for the...
Two identical masses are released from rest in a smooth hemispherical bowl of radius R, from the positions shown in the figure (Figure 1) . You can ignore friction between the masses and the surface of the bowl.If they stick together when they collide, how high above the bottom of the bowl will the masses go after colliding? y= ?? R
An object rests at the top of a smooth frictionless hemispherical surface of radius r = 10m. After the object is pushed horizontally with an initial velocity of v0 = 5m/s, it slides down and slips off the hemisphere. Find the angle at which the object loses contact with the surface. Could you please type in the numbers that are suppose to go to each variable in the formulas thank you!
Flex question A hemispherical close surface of radius R is placed in a uniform field of magni- tude E. i)What would be the flux through the entire closed surface? ii)What is the flux through the dome of the hemisphere? Select one: a. i), ii) ERR b. i), ii) c. i)2ER2, ii) d. i)ETR, ii) e. i)-ErR2, ii)0 f. i)2E+R2, ii)ErR g. 100, ii)-ETR2 Next